Merge branch 'lightcli' into light-filters

This commit is contained in:
Robert Habermeier 2017-04-03 12:55:31 +02:00
commit 60ce0aee1a
81 changed files with 5432 additions and 2449 deletions

205
Cargo.lock generated
View File

@ -10,7 +10,6 @@ dependencies = [
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@ -24,16 +23,17 @@ dependencies = [
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@ -41,6 +41,7 @@ dependencies = [
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@ -310,6 +311,11 @@ dependencies = [
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@ -362,7 +368,7 @@ dependencies = [
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@ -1092,7 +1085,7 @@ dependencies = [
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@ -1105,7 +1098,7 @@ dependencies = [
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@ -1117,17 +1110,31 @@ dependencies = [
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@ -1137,7 +1144,7 @@ dependencies = [
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@ -1148,7 +1155,7 @@ dependencies = [
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@ -1396,6 +1403,25 @@ dependencies = [
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@ -1577,6 +1603,38 @@ dependencies = [
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@ -1705,7 +1763,7 @@ dependencies = [
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"checksum ctrlc 1.1.1 (git+https://github.com/paritytech/rust-ctrlc.git)" = "<none>"
"checksum daemonize 0.2.2 (registry+https://github.com/rust-lang/crates.io-index)" = "271ec51b7e0bee92f0d04601422c73eb76ececf197026711c97ad25038a010cf"
"checksum deque 0.3.1 (registry+https://github.com/rust-lang/crates.io-index)" = "1614659040e711785ed8ea24219140654da1729f3ec8a47a9719d041112fe7bf"
"checksum difference 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)" = "b3304d19798a8e067e48d8e69b2c37f0b5e9b4e462504ad9e27e9f3fce02bba8"
"checksum docopt 0.7.0 (registry+https://github.com/rust-lang/crates.io-index)" = "ab32ea6e284d87987066f21a9e809a73c14720571ef34516f0890b3d355ccfd8"
"checksum dtoa 0.4.0 (registry+https://github.com/rust-lang/crates.io-index)" = "5edd69c67b2f8e0911629b7e6b8a34cb3956613cd7c6e6414966dee349c2db4f"
"checksum either 1.0.2 (registry+https://github.com/rust-lang/crates.io-index)" = "3d2b503c86dad62aaf414ecf2b8c527439abedb3f8d812537f0b12bfd6f32a91"
"checksum elastic-array 0.6.0 (git+https://github.com/paritytech/elastic-array)" = "<none>"
"checksum env_logger 0.4.2 (registry+https://github.com/rust-lang/crates.io-index)" = "e3856f1697098606fc6cb97a93de88ca3f3bc35bb878c725920e6e82ecf05e83"
"checksum eth-secp256k1 0.5.6 (git+https://github.com/paritytech/rust-secp256k1)" = "<none>"
"checksum ethabi 1.0.0 (registry+https://github.com/rust-lang/crates.io-index)" = "5d8f6cc4c1acd005f48e1d17b06a461adac8fb6eeeb331fbf19a0e656fba91cd"
"checksum ethabi 1.0.4 (registry+https://github.com/rust-lang/crates.io-index)" = "63df67d0af5e3cb906b667ca1a6e00baffbed87d0d8f5f78468a1f5eb3a66345"
"checksum fdlimit 0.1.1 (registry+https://github.com/rust-lang/crates.io-index)" = "b1ee15a7050e5580b3712877157068ea713b245b080ff302ae2ca973cfcd9baa"
"checksum flate2 0.2.14 (registry+https://github.com/rust-lang/crates.io-index)" = "3eeb481e957304178d2e782f2da1257f1434dfecbae883bafb61ada2a9fea3bb"
"checksum futures 0.1.11 (registry+https://github.com/rust-lang/crates.io-index)" = "8e51e7f9c150ba7fd4cee9df8bf6ea3dea5b63b68955ddad19ccd35b71dcfb4d"
@ -2690,6 +2793,7 @@ dependencies = [
"checksum glob 0.2.11 (registry+https://github.com/rust-lang/crates.io-index)" = "8be18de09a56b60ed0edf84bc9df007e30040691af7acd1c41874faac5895bfb"
"checksum hamming 0.1.3 (registry+https://github.com/rust-lang/crates.io-index)" = "65043da274378d68241eb9a8f8f8aa54e349136f7b8e12f63e3ef44043cc30e1"
"checksum heapsize 0.3.6 (registry+https://github.com/rust-lang/crates.io-index)" = "abb306abb8d398e053cfb1b3e7b72c2f580be048b85745c52652954f8ad1439c"
"checksum heck 0.2.0 (registry+https://github.com/rust-lang/crates.io-index)" = "6f807d2f64cc044a6bcf250ff23e59be0deec7a16612c014f962a06fa7e020f9"
"checksum hidapi 0.3.1 (git+https://github.com/paritytech/hidapi-rs)" = "<none>"
"checksum httparse 1.1.2 (registry+https://github.com/rust-lang/crates.io-index)" = "46534074dbb80b070d60a5cb8ecadd8963a00a438ae1a95268850a7ef73b67ae"
"checksum hyper 0.10.0-a.0 (git+https://github.com/paritytech/hyper)" = "<none>"
@ -2706,6 +2810,7 @@ dependencies = [
"checksum jsonrpc-http-server 7.0.0 (git+https://github.com/paritytech/jsonrpc.git?branch=parity-1.7)" = "<none>"
"checksum jsonrpc-ipc-server 7.0.0 (git+https://github.com/paritytech/jsonrpc.git?branch=parity-1.7)" = "<none>"
"checksum jsonrpc-macros 7.0.0 (git+https://github.com/paritytech/jsonrpc.git?branch=parity-1.7)" = "<none>"
"checksum jsonrpc-minihttp-server 7.0.0 (git+https://github.com/paritytech/jsonrpc.git?branch=parity-1.7)" = "<none>"
"checksum jsonrpc-pubsub 7.0.0 (git+https://github.com/paritytech/jsonrpc.git?branch=parity-1.7)" = "<none>"
"checksum jsonrpc-server-utils 7.0.0 (git+https://github.com/paritytech/jsonrpc.git?branch=parity-1.7)" = "<none>"
"checksum jsonrpc-tcp-server 7.0.0 (git+https://github.com/paritytech/jsonrpc.git?branch=parity-1.7)" = "<none>"
@ -2769,6 +2874,7 @@ dependencies = [
"checksum phf_shared 0.7.14 (registry+https://github.com/rust-lang/crates.io-index)" = "fee4d039930e4f45123c9b15976cf93a499847b6483dc09c42ea0ec4940f2aa6"
"checksum pkg-config 0.3.8 (registry+https://github.com/rust-lang/crates.io-index)" = "8cee804ecc7eaf201a4a207241472cc870e825206f6c031e3ee2a72fa425f2fa"
"checksum podio 0.1.5 (registry+https://github.com/rust-lang/crates.io-index)" = "e5422a1ee1bc57cc47ae717b0137314258138f38fd5f3cea083f43a9725383a0"
"checksum pretty_assertions 0.1.2 (registry+https://github.com/rust-lang/crates.io-index)" = "2412f3332a07c7a2a50168988dcc184f32180a9758ad470390e5f55e089f6b6e"
"checksum primal 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "0e31b86efadeaeb1235452171a66689682783149a6249ff334a2c5d8218d00a4"
"checksum primal-bit 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "464a91febc06166783d4f5ba3577b5ed8dda8e421012df80bfe48a971ed7be8f"
"checksum primal-check 0.2.2 (registry+https://github.com/rust-lang/crates.io-index)" = "647c81b67bb9551a7b88d0bcd785ac35b7d0bf4b2f358683d7c2375d04daec51"
@ -2838,7 +2944,9 @@ dependencies = [
"checksum tokio-core 0.1.4 (registry+https://github.com/rust-lang/crates.io-index)" = "3d1be481b55126f02ef88ff86748086473cb537a949fc4a8f4be403a530ae54b"
"checksum tokio-io 0.1.0 (registry+https://github.com/rust-lang/crates.io-index)" = "6a278fde45f1be68e44995227d426aaa4841e0980bb0a21b981092f28c3c8473"
"checksum tokio-line 0.1.0 (git+https://github.com/tokio-rs/tokio-line)" = "<none>"
"checksum tokio-minihttp 0.1.0 (git+https://github.com/tomusdrw/tokio-minihttp)" = "<none>"
"checksum tokio-named-pipes 0.1.0 (git+https://github.com/alexcrichton/tokio-named-pipes)" = "<none>"
"checksum tokio-proto 0.1.0 (git+https://github.com/tomusdrw/tokio-proto)" = "<none>"
"checksum tokio-proto 0.1.0 (registry+https://github.com/rust-lang/crates.io-index)" = "7c0d6031f94d78d7b4d509d4a7c5e1cdf524a17e7b08d1c188a83cf720e69808"
"checksum tokio-service 0.1.0 (registry+https://github.com/rust-lang/crates.io-index)" = "24da22d077e0f15f55162bdbdc661228c1581892f52074fb242678d015b45162"
"checksum tokio-uds 0.1.2 (registry+https://github.com/rust-lang/crates.io-index)" = "ffc7b5fc8e19e220b29566d1750949224a518478eab9cebc8df60583242ca30a"
@ -2850,6 +2958,7 @@ dependencies = [
"checksum unicase 1.4.0 (registry+https://github.com/rust-lang/crates.io-index)" = "13a5906ca2b98c799f4b1ab4557b76367ebd6ae5ef14930ec841c74aed5f3764"
"checksum unicode-bidi 0.2.3 (registry+https://github.com/rust-lang/crates.io-index)" = "c1f7ceb96afdfeedee42bade65a0d585a6a0106f681b6749c8ff4daa8df30b3f"
"checksum unicode-normalization 0.1.2 (registry+https://github.com/rust-lang/crates.io-index)" = "26643a2f83bac55f1976fb716c10234485f9202dcd65cfbdf9da49867b271172"
"checksum unicode-segmentation 1.1.0 (registry+https://github.com/rust-lang/crates.io-index)" = "18127285758f0e2c6cf325bb3f3d138a12fee27de4f23e146cd6a179f26c2cf3"
"checksum unicode-xid 0.0.4 (registry+https://github.com/rust-lang/crates.io-index)" = "8c1f860d7d29cf02cb2f3f359fd35991af3d30bac52c57d265a3c461074cb4dc"
"checksum unreachable 0.1.1 (registry+https://github.com/rust-lang/crates.io-index)" = "1f2ae5ddb18e1c92664717616dd9549dde73f539f01bd7b77c2edb2446bdff91"
"checksum untrusted 0.3.2 (registry+https://github.com/rust-lang/crates.io-index)" = "193df64312e3515fd983ded55ad5bcaa7647a035804828ed757e832ce6029ef3"

View File

@ -26,7 +26,6 @@ app_dirs = "1.1.1"
futures = "0.1"
fdlimit = "0.1"
ws2_32-sys = "0.2"
hyper = { default-features = false, git = "https://github.com/paritytech/hyper" }
ctrlc = { git = "https://github.com/paritytech/rust-ctrlc.git" }
jsonrpc-core = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }
ethsync = { path = "sync" }
@ -42,6 +41,7 @@ ethcore-ipc-hypervisor = { path = "ipc/hypervisor" }
ethcore-light = { path = "ethcore/light" }
ethcore-logger = { path = "logger" }
ethcore-stratum = { path = "stratum" }
ethkey = { path = "ethkey" }
evmbin = { path = "evmbin" }
rlp = { path = "util/rlp" }
rpc-cli = { path = "rpc_cli" }
@ -51,8 +51,9 @@ parity-ipfs-api = { path = "ipfs" }
parity-updater = { path = "updater" }
parity-reactor = { path = "util/reactor" }
parity-local-store = { path = "local-store" }
ethcore-dapps = { path = "dapps", optional = true }
path = { path = "util/path" }
parity-dapps = { path = "dapps", optional = true }
clippy = { version = "0.0.103", optional = true}
ethcore-secretstore = { path = "secret_store", optional = true }
@ -61,6 +62,7 @@ rustc_version = "0.2"
[dev-dependencies]
ethcore-ipc-tests = { path = "ipc/tests" }
pretty_assertions = "0.1"
[target.'cfg(windows)'.dependencies]
winapi = "0.2"
@ -72,18 +74,18 @@ daemonize = "0.2"
default = ["ui-precompiled"]
ui = [
"dapps",
"ethcore-dapps/ui",
"parity-dapps/ui",
"ethcore-signer/ui",
]
ui-precompiled = [
"dapps",
"ethcore-signer/ui-precompiled",
"ethcore-dapps/ui-precompiled",
"parity-dapps/ui-precompiled",
]
dapps = ["ethcore-dapps"]
dapps = ["parity-dapps"]
ipc = ["ethcore/ipc", "ethsync/ipc"]
jit = ["ethcore/jit"]
dev = ["clippy", "ethcore/dev", "ethcore-util/dev", "ethsync/dev", "ethcore-rpc/dev", "ethcore-dapps/dev", "ethcore-signer/dev"]
dev = ["clippy", "ethcore/dev", "ethcore-util/dev", "ethsync/dev", "ethcore-rpc/dev", "parity-dapps/dev", "ethcore-signer/dev"]
json-tests = ["ethcore/json-tests"]
test-heavy = ["ethcore/test-heavy"]
ethkey-cli = ["ethcore/ethkey-cli"]

View File

@ -1,6 +1,6 @@
[package]
description = "Parity Dapps crate"
name = "ethcore-dapps"
name = "parity-dapps"
version = "1.7.0"
license = "GPL-3.0"
authors = ["Parity Technologies <admin@parity.io>"]
@ -28,11 +28,8 @@ zip = { version = "0.1", default-features = false }
jsonrpc-core = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }
jsonrpc-http-server = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }
# TODO [ToDr] Temporary solution, server should be merged with RPC.
jsonrpc-server-utils = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }
ethcore-devtools = { path = "../devtools" }
ethcore-rpc = { path = "../rpc" }
ethcore-util = { path = "../util" }
fetch = { path = "../util/fetch" }
parity-hash-fetch = { path = "../hash-fetch" }
@ -42,7 +39,7 @@ parity-ui = { path = "./ui" }
clippy = { version = "0.0.103", optional = true}
[features]
dev = ["clippy", "ethcore-rpc/dev", "ethcore-util/dev"]
dev = ["clippy", "ethcore-util/dev"]
ui = ["parity-ui/no-precompiled-js"]
ui-precompiled = ["parity-ui/use-precompiled-js"]

View File

@ -14,7 +14,6 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::sync::Arc;
use unicase::UniCase;
use hyper::{server, net, Decoder, Encoder, Next, Control};
use hyper::header;
@ -26,48 +25,49 @@ use apps::fetcher::Fetcher;
use handlers::extract_url;
use endpoint::{Endpoint, Endpoints, Handler, EndpointPath};
use jsonrpc_http_server;
use jsonrpc_server_utils::cors;
use jsonrpc_http_server::{self, AccessControlAllowOrigin};
#[derive(Clone)]
pub struct RestApi {
cors_domains: Option<Vec<cors::AccessControlAllowOrigin>>,
endpoints: Arc<Endpoints>,
fetcher: Arc<Fetcher>,
pub struct RestApi<F> {
// TODO [ToDr] cors_domains should be handled by the server to avoid duplicated logic.
// RequestMiddleware should be able to tell that cors headers should be included.
cors_domains: Option<Vec<AccessControlAllowOrigin>>,
apps: Vec<App>,
fetcher: F,
}
impl RestApi {
pub fn new(cors_domains: Vec<cors::AccessControlAllowOrigin>, endpoints: Arc<Endpoints>, fetcher: Arc<Fetcher>) -> Box<Endpoint> {
impl<F: Fetcher + Clone> RestApi<F> {
pub fn new(cors_domains: Vec<AccessControlAllowOrigin>, endpoints: &Endpoints, fetcher: F) -> Box<Endpoint> {
Box::new(RestApi {
cors_domains: Some(cors_domains),
endpoints: endpoints,
apps: Self::list_apps(endpoints),
fetcher: fetcher,
})
}
fn list_apps(&self) -> Vec<App> {
self.endpoints.iter().filter_map(|(ref k, ref e)| {
fn list_apps(endpoints: &Endpoints) -> Vec<App> {
endpoints.iter().filter_map(|(ref k, ref e)| {
e.info().map(|ref info| App::from_info(k, info))
}).collect()
}
}
impl Endpoint for RestApi {
impl<F: Fetcher + Clone> Endpoint for RestApi<F> {
fn to_async_handler(&self, path: EndpointPath, control: Control) -> Box<Handler> {
Box::new(RestApiRouter::new(self.clone(), path, control))
Box::new(RestApiRouter::new((*self).clone(), path, control))
}
}
struct RestApiRouter {
api: RestApi,
struct RestApiRouter<F> {
api: RestApi<F>,
cors_header: Option<header::AccessControlAllowOrigin>,
path: Option<EndpointPath>,
control: Option<Control>,
handler: Box<Handler>,
}
impl RestApiRouter {
fn new(api: RestApi, path: EndpointPath, control: Control) -> Self {
impl<F: Fetcher> RestApiRouter<F> {
fn new(api: RestApi<F>, path: EndpointPath, control: Control) -> Self {
RestApiRouter {
path: Some(path),
cors_header: None,
@ -114,7 +114,7 @@ impl RestApiRouter {
}
}
impl server::Handler<net::HttpStream> for RestApiRouter {
impl<F: Fetcher> server::Handler<net::HttpStream> for RestApiRouter<F> {
fn on_request(&mut self, request: server::Request<net::HttpStream>) -> Next {
self.cors_header = jsonrpc_http_server::cors_header(&request, &self.api.cors_domains).into();
@ -142,7 +142,7 @@ impl server::Handler<net::HttpStream> for RestApiRouter {
if let Some(ref hash) = hash { path.app_id = hash.clone().to_owned() }
let handler = endpoint.and_then(|v| match v {
"apps" => Some(response::as_json(&self.api.list_apps())),
"apps" => Some(response::as_json(&self.api.apps)),
"ping" => Some(response::ping()),
"content" => self.resolve_content(hash, path, control),
_ => None

View File

@ -47,7 +47,8 @@ pub trait Fetcher: Send + Sync + 'static {
fn to_async_handler(&self, path: EndpointPath, control: hyper::Control) -> Box<Handler>;
}
pub struct ContentFetcher<F: Fetch = FetchClient, R: URLHint + Send + Sync + 'static = URLHintContract> {
#[derive(Clone)]
pub struct ContentFetcher<F: Fetch + Clone = FetchClient, R: URLHint + Clone + 'static = URLHintContract> {
dapps_path: PathBuf,
resolver: R,
cache: Arc<Mutex<ContentCache>>,
@ -57,14 +58,14 @@ pub struct ContentFetcher<F: Fetch = FetchClient, R: URLHint + Send + Sync + 'st
fetch: F,
}
impl<R: URLHint + Send + Sync + 'static, F: Fetch> Drop for ContentFetcher<F, R> {
impl<R: URLHint + Clone + 'static, F: Fetch + Clone> Drop for ContentFetcher<F, R> {
fn drop(&mut self) {
// Clear cache path
let _ = fs::remove_dir_all(&self.dapps_path);
}
}
impl<R: URLHint + Send + Sync + 'static, F: Fetch> ContentFetcher<F, R> {
impl<R: URLHint + Clone + 'static, F: Fetch + Clone> ContentFetcher<F, R> {
pub fn new(resolver: R, sync_status: Arc<SyncStatus>, embeddable_on: Option<(String, u16)>, remote: Remote, fetch: F) -> Self {
let mut dapps_path = env::temp_dir();
@ -97,7 +98,7 @@ impl<R: URLHint + Send + Sync + 'static, F: Fetch> ContentFetcher<F, R> {
}
}
impl<R: URLHint + Send + Sync + 'static, F: Fetch> Fetcher for ContentFetcher<F, R> {
impl<R: URLHint + Clone + 'static, F: Fetch + Clone> Fetcher for ContentFetcher<F, R> {
fn contains(&self, content_id: &str) -> bool {
{
let mut cache = self.cache.lock();
@ -233,6 +234,7 @@ mod tests {
use page::LocalPageEndpoint;
use super::{ContentFetcher, Fetcher};
#[derive(Clone)]
struct FakeResolver;
impl URLHint for FakeResolver {
fn resolve(&self, _id: Bytes) -> Option<URLHintResult> {

View File

@ -16,9 +16,10 @@
//! URL Endpoint traits
use hyper::{self, server, net};
use std::collections::BTreeMap;
use hyper::{self, server, net};
#[derive(Debug, PartialEq, Default, Clone)]
pub struct EndpointPath {
pub app_id: String,

View File

@ -1,44 +0,0 @@
// Copyright 2015-2017 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/>.
//! Authorization Handlers
use hyper::{server, Decoder, Encoder, Next};
use hyper::net::HttpStream;
use hyper::status::StatusCode;
pub struct AuthRequiredHandler;
impl server::Handler<HttpStream> for AuthRequiredHandler {
fn on_request(&mut self, _request: server::Request<HttpStream>) -> Next {
Next::write()
}
fn on_request_readable(&mut self, _decoder: &mut Decoder<HttpStream>) -> Next {
Next::write()
}
fn on_response(&mut self, res: &mut server::Response) -> Next {
res.set_status(StatusCode::Unauthorized);
res.headers_mut().set_raw("WWW-Authenticate", vec![b"Basic realm=\"Parity\"".to_vec()]);
Next::write()
}
fn on_response_writable(&mut self, _encoder: &mut Encoder<HttpStream>) -> Next {
Next::end()
}
}

View File

@ -16,14 +16,12 @@
//! Hyper handlers implementations.
mod auth;
mod content;
mod echo;
mod fetch;
mod redirect;
mod streaming;
pub use self::auth::AuthRequiredHandler;
pub use self::content::ContentHandler;
pub use self::echo::EchoHandler;
pub use self::fetch::{ContentFetcherHandler, ContentValidator, FetchControl, ValidatorResponse};

View File

@ -34,9 +34,7 @@ extern crate zip;
extern crate jsonrpc_core;
extern crate jsonrpc_http_server;
extern crate jsonrpc_server_utils;
extern crate ethcore_rpc;
extern crate ethcore_util as util;
extern crate fetch;
extern crate parity_dapps_glue as parity_dapps;
@ -61,7 +59,6 @@ mod apps;
mod page;
mod router;
mod handlers;
mod rpc;
mod api;
mod proxypac;
mod url;
@ -69,23 +66,16 @@ mod web;
#[cfg(test)]
mod tests;
use std::path::{Path, PathBuf};
use std::path::PathBuf;
use std::sync::Arc;
use std::net::SocketAddr;
use std::collections::HashMap;
use jsonrpc_core::{Middleware, MetaIoHandler};
use jsonrpc_http_server::tokio_core::reactor::Remote as TokioRemote;
pub use jsonrpc_http_server::{DomainsValidation, Host, AccessControlAllowOrigin};
pub use jsonrpc_http_server::hyper;
use jsonrpc_http_server::{self as http, hyper, AccessControlAllowOrigin};
use ethcore_rpc::Metadata;
use fetch::{Fetch, Client as FetchClient};
use hash_fetch::urlhint::ContractClient;
use fetch::Fetch;
use parity_reactor::Remote;
use router::auth::{Authorization, NoAuth, HttpBasicAuth};
use self::apps::{HOME_PAGE, DAPPS_DOMAIN};
pub use hash_fetch::urlhint::ContractClient;
/// Indicates sync status
pub trait SyncStatus: Send + Sync {
@ -107,173 +97,76 @@ impl<F> WebProxyTokens for F where F: Fn(String) -> bool + Send + Sync {
fn is_web_proxy_token_valid(&self, token: &str) -> bool { self(token.to_owned()) }
}
/// Webapps HTTP+RPC server build.
pub struct ServerBuilder<T: Fetch = FetchClient> {
/// Dapps server as `jsonrpc-http-server` request middleware.
pub struct Middleware<F: Fetch + Clone> {
router: router::Router<apps::fetcher::ContentFetcher<F>>,
}
impl<F: Fetch + Clone> Middleware<F> {
/// Creates new Dapps server middleware.
pub fn new(
remote: Remote,
signer_address: Option<(String, u16)>,
dapps_path: PathBuf,
extra_dapps: Vec<PathBuf>,
registrar: Arc<ContractClient>,
sync_status: Arc<SyncStatus>,
web_proxy_tokens: Arc<WebProxyTokens>,
signer_address: Option<(String, u16)>,
allowed_hosts: Option<Vec<Host>>,
extra_cors: Option<Vec<AccessControlAllowOrigin>>,
remote: Remote,
fetch: Option<T>,
}
fetch: F,
) -> Self {
let content_fetcher = apps::fetcher::ContentFetcher::new(
hash_fetch::urlhint::URLHintContract::new(registrar),
sync_status,
signer_address.clone(),
remote.clone(),
fetch.clone(),
);
let endpoints = apps::all_endpoints(
dapps_path,
extra_dapps,
signer_address.clone(),
web_proxy_tokens,
remote.clone(),
fetch.clone(),
);
impl ServerBuilder {
/// Construct new dapps server
pub fn new<P: AsRef<Path>>(dapps_path: P, registrar: Arc<ContractClient>, remote: Remote) -> Self {
ServerBuilder {
dapps_path: dapps_path.as_ref().to_owned(),
extra_dapps: vec![],
registrar: registrar,
sync_status: Arc::new(|| false),
web_proxy_tokens: Arc::new(|_| false),
signer_address: None,
allowed_hosts: Some(vec![]),
extra_cors: None,
remote: remote,
fetch: None,
let cors_domains = cors_domains(signer_address.clone());
let special = {
let mut special = HashMap::new();
special.insert(router::SpecialEndpoint::Rpc, None);
special.insert(router::SpecialEndpoint::Utils, Some(apps::utils()));
special.insert(
router::SpecialEndpoint::Api,
Some(api::RestApi::new(cors_domains.clone(), &endpoints, content_fetcher.clone())),
);
special
};
let router = router::Router::new(
signer_address,
content_fetcher,
endpoints,
special,
);
Middleware {
router: router,
}
}
}
impl<T: Fetch> ServerBuilder<T> {
/// Set a fetch client to use.
pub fn fetch<X: Fetch>(self, fetch: X) -> ServerBuilder<X> {
ServerBuilder {
dapps_path: self.dapps_path,
extra_dapps: vec![],
registrar: self.registrar,
sync_status: self.sync_status,
web_proxy_tokens: self.web_proxy_tokens,
signer_address: self.signer_address,
allowed_hosts: self.allowed_hosts,
extra_cors: self.extra_cors,
remote: self.remote,
fetch: Some(fetch),
impl<F: Fetch + Clone> http::RequestMiddleware for Middleware<F> {
fn on_request(&self, req: &hyper::server::Request<hyper::net::HttpStream>, control: &hyper::Control) -> http::RequestMiddlewareAction {
self.router.on_request(req, control)
}
}
/// Change default sync status.
pub fn sync_status(mut self, status: Arc<SyncStatus>) -> Self {
self.sync_status = status;
self
}
/// Change default web proxy tokens validator.
pub fn web_proxy_tokens(mut self, tokens: Arc<WebProxyTokens>) -> Self {
self.web_proxy_tokens = tokens;
self
}
/// Change default signer port.
pub fn signer_address(mut self, signer_address: Option<(String, u16)>) -> Self {
self.signer_address = signer_address;
self
}
/// Change allowed hosts.
/// `None` - All hosts are allowed
/// `Some(whitelist)` - Allow only whitelisted hosts (+ listen address)
pub fn allowed_hosts(mut self, allowed_hosts: DomainsValidation<Host>) -> Self {
self.allowed_hosts = allowed_hosts.into();
self
}
/// Extra cors headers.
/// `None` - no additional CORS URLs
pub fn extra_cors_headers(mut self, cors: DomainsValidation<AccessControlAllowOrigin>) -> Self {
self.extra_cors = cors.into();
self
}
/// Change extra dapps paths (apart from `dapps_path`)
pub fn extra_dapps<P: AsRef<Path>>(mut self, extra_dapps: &[P]) -> Self {
self.extra_dapps = extra_dapps.iter().map(|p| p.as_ref().to_owned()).collect();
self
}
/// Asynchronously start server with no authentication,
/// returns result with `Server` handle on success or an error.
pub fn start_unsecured_http<S: Middleware<Metadata>>(self, addr: &SocketAddr, handler: MetaIoHandler<Metadata, S>, tokio_remote: TokioRemote) -> Result<Server, ServerError> {
let fetch = self.fetch_client()?;
Server::start_http(
addr,
self.allowed_hosts,
self.extra_cors,
NoAuth,
handler,
self.dapps_path,
self.extra_dapps,
self.signer_address,
self.registrar,
self.sync_status,
self.web_proxy_tokens,
self.remote,
tokio_remote,
fetch,
)
}
/// Asynchronously start server with `HTTP Basic Authentication`,
/// return result with `Server` handle on success or an error.
pub fn start_basic_auth_http<S: Middleware<Metadata>>(self, addr: &SocketAddr, username: &str, password: &str, handler: MetaIoHandler<Metadata, S>, tokio_remote: TokioRemote) -> Result<Server, ServerError> {
let fetch = self.fetch_client()?;
Server::start_http(
addr,
self.allowed_hosts,
self.extra_cors,
HttpBasicAuth::single_user(username, password),
handler,
self.dapps_path,
self.extra_dapps,
self.signer_address,
self.registrar,
self.sync_status,
self.web_proxy_tokens,
self.remote,
tokio_remote,
fetch,
)
}
fn fetch_client(&self) -> Result<T, ServerError> {
match self.fetch.clone() {
Some(fetch) => Ok(fetch),
None => T::new().map_err(|_| ServerError::FetchInitialization),
}
}
}
/// Webapps HTTP server.
pub struct Server {
server: Option<hyper::server::Listening>,
}
impl Server {
/// Returns a list of allowed hosts or `None` if all hosts are allowed.
fn allowed_hosts(hosts: Option<Vec<Host>>, bind_address: String) -> Option<Vec<Host>> {
let mut allowed = Vec::new();
match hosts {
Some(hosts) => allowed.extend_from_slice(&hosts),
None => return None,
}
// Add localhost domain as valid too if listening on loopback interface.
allowed.push(bind_address.replace("127.0.0.1", "localhost").into());
allowed.push(bind_address.into());
Some(allowed)
}
/// Returns a list of CORS domains for API endpoint.
fn cors_domains(
signer_address: Option<(String, u16)>,
extra_cors: Option<Vec<AccessControlAllowOrigin>>,
) -> Vec<AccessControlAllowOrigin> {
let basic_cors = match signer_address {
fn cors_domains(signer_address: Option<(String, u16)>) -> Vec<AccessControlAllowOrigin> {
use self::apps::{HOME_PAGE, DAPPS_DOMAIN};
match signer_address {
Some(signer_address) => [
format!("http://{}{}", HOME_PAGE, DAPPS_DOMAIN),
format!("http://{}{}:{}", HOME_PAGE, DAPPS_DOMAIN, signer_address.1),
@ -283,118 +176,11 @@ impl Server {
format!("https://{}", address(&signer_address)),
].into_iter().map(|val| AccessControlAllowOrigin::Value(val.into())).collect(),
None => vec![],
};
match extra_cors {
None => basic_cors,
Some(extra_cors) => basic_cors.into_iter().chain(extra_cors).collect(),
}
}
fn start_http<A: Authorization + 'static, F: Fetch, T: Middleware<Metadata>>(
addr: &SocketAddr,
hosts: Option<Vec<Host>>,
extra_cors: Option<Vec<AccessControlAllowOrigin>>,
authorization: A,
handler: MetaIoHandler<Metadata, T>,
dapps_path: PathBuf,
extra_dapps: Vec<PathBuf>,
signer_address: Option<(String, u16)>,
registrar: Arc<ContractClient>,
sync_status: Arc<SyncStatus>,
web_proxy_tokens: Arc<WebProxyTokens>,
remote: Remote,
tokio_remote: TokioRemote,
fetch: F,
) -> Result<Server, ServerError> {
let authorization = Arc::new(authorization);
let content_fetcher = Arc::new(apps::fetcher::ContentFetcher::new(
hash_fetch::urlhint::URLHintContract::new(registrar),
sync_status,
signer_address.clone(),
remote.clone(),
fetch.clone(),
));
let endpoints = Arc::new(apps::all_endpoints(
dapps_path,
extra_dapps,
signer_address.clone(),
web_proxy_tokens,
remote.clone(),
fetch.clone(),
));
let cors_domains = Self::cors_domains(signer_address.clone(), extra_cors);
let special = Arc::new({
let mut special = HashMap::new();
special.insert(router::SpecialEndpoint::Rpc, rpc::rpc(handler, tokio_remote, cors_domains.clone()));
special.insert(router::SpecialEndpoint::Utils, apps::utils());
special.insert(
router::SpecialEndpoint::Api,
api::RestApi::new(cors_domains, endpoints.clone(), content_fetcher.clone())
);
special
});
let hosts = Self::allowed_hosts(hosts, format!("{}", addr));
hyper::Server::http(addr)?
.handle(move |ctrl| router::Router::new(
ctrl,
signer_address.clone(),
content_fetcher.clone(),
endpoints.clone(),
special.clone(),
authorization.clone(),
hosts.clone(),
))
.map(|(l, srv)| {
::std::thread::spawn(move || {
srv.run();
});
Server {
server: Some(l),
}
})
.map_err(ServerError::from)
}
#[cfg(test)]
/// Returns address that this server is bound to.
pub fn addr(&self) -> &SocketAddr {
self.server.as_ref()
.expect("server is always Some at the start; it's consumed only when object is dropped; qed")
.addrs()
.first()
.expect("You cannot start the server without binding to at least one address; qed")
}
}
impl Drop for Server {
fn drop(&mut self) {
self.server.take().unwrap().close()
}
}
/// Webapp Server startup error
#[derive(Debug)]
pub enum ServerError {
/// Wrapped `std::io::Error`
IoError(std::io::Error),
/// Other `hyper` error
Other(hyper::error::Error),
/// Fetch service initialization error
FetchInitialization,
}
impl From<hyper::error::Error> for ServerError {
fn from(err: hyper::error::Error) -> Self {
match err {
hyper::error::Error::Io(e) => ServerError::IoError(e),
e => ServerError::Other(e),
}
}
fn address(address: &(String, u16)) -> String {
format!("{}:{}", address.0, address.1)
}
/// Random filename
@ -404,39 +190,18 @@ fn random_filename() -> String {
rng.gen_ascii_chars().take(12).collect()
}
fn address(address: &(String, u16)) -> String {
format!("{}:{}", address.0, address.1)
}
#[cfg(test)]
mod util_tests {
use super::Server;
use super::cors_domains;
use jsonrpc_http_server::AccessControlAllowOrigin;
#[test]
fn should_return_allowed_hosts() {
// given
let bind_address = "127.0.0.1".to_owned();
// when
let all = Server::allowed_hosts(None, bind_address.clone());
let address = Server::allowed_hosts(Some(Vec::new()), bind_address.clone());
let some = Server::allowed_hosts(Some(vec!["ethcore.io".into()]), bind_address.clone());
// then
assert_eq!(all, None);
assert_eq!(address, Some(vec!["localhost".into(), "127.0.0.1".into()]));
assert_eq!(some, Some(vec!["ethcore.io".into(), "localhost".into(), "127.0.0.1".into()]));
}
#[test]
fn should_return_cors_domains() {
// given
// when
let none = Server::cors_domains(None, None);
let some = Server::cors_domains(Some(("127.0.0.1".into(), 18180)), None);
let extra = Server::cors_domains(None, Some(vec!["all".into()]));
let none = cors_domains(None);
let some = cors_domains(Some(("127.0.0.1".into(), 18180)));
// then
assert_eq!(none, Vec::<AccessControlAllowOrigin>::new());
@ -448,6 +213,5 @@ mod util_tests {
"https://parity.web3.site:18180".into(),
"https://127.0.0.1:18180".into(),
]);
assert_eq!(extra, vec![AccessControlAllowOrigin::Any]);
}
}

View File

@ -15,24 +15,20 @@
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
//! Router implementation
//! Processes request handling authorization and dispatching it to proper application.
pub mod auth;
mod host_validation;
//! Dispatch requests to proper application.
use address;
use std::cmp;
use std::sync::Arc;
use std::collections::HashMap;
use url::{Url, Host};
use hyper::{self, server, header, Next, Encoder, Decoder, Control, StatusCode};
use hyper::{self, server, header, Control, StatusCode};
use hyper::net::HttpStream;
use jsonrpc_server_utils::hosts;
use jsonrpc_http_server as http;
use apps::{self, DAPPS_DOMAIN};
use apps::fetcher::Fetcher;
use endpoint::{Endpoint, Endpoints, EndpointPath};
use endpoint::{Endpoint, Endpoints, EndpointPath, Handler};
use handlers::{self, Redirection, ContentHandler};
/// Special endpoints are accessible on every domain (every dapp)
@ -44,51 +40,29 @@ pub enum SpecialEndpoint {
None,
}
pub struct Router<A: auth::Authorization + 'static> {
control: Option<Control>,
pub struct Router<F> {
signer_address: Option<(String, u16)>,
endpoints: Arc<Endpoints>,
fetch: Arc<Fetcher>,
special: Arc<HashMap<SpecialEndpoint, Box<Endpoint>>>,
authorization: Arc<A>,
allowed_hosts: Option<Vec<hosts::Host>>,
handler: Box<server::Handler<HttpStream> + Send>,
endpoints: Endpoints,
fetch: F,
special: HashMap<SpecialEndpoint, Option<Box<Endpoint>>>,
}
impl<A: auth::Authorization + 'static> server::Handler<HttpStream> for Router<A> {
fn on_request(&mut self, req: server::Request<HttpStream>) -> Next {
impl<F: Fetcher + 'static> http::RequestMiddleware for Router<F> {
fn on_request(&self, req: &server::Request<HttpStream>, control: &Control) -> http::RequestMiddlewareAction {
// Choose proper handler depending on path / domain
let url = handlers::extract_url(&req);
let url = handlers::extract_url(req);
let endpoint = extract_endpoint(&url);
let referer = extract_referer_endpoint(&req);
let referer = extract_referer_endpoint(req);
let is_utils = endpoint.1 == SpecialEndpoint::Utils;
let is_dapps_domain = endpoint.0.as_ref().map(|endpoint| endpoint.using_dapps_domains).unwrap_or(false);
let is_origin_set = req.headers().get::<http::hyper::header::Origin>().is_some();
let is_get_request = *req.method() == hyper::Method::Get;
trace!(target: "dapps", "Routing request to {:?}. Details: {:?}", url, req);
// Validate Host header
trace!(target: "dapps", "Validating host headers against: {:?}", self.allowed_hosts);
let is_valid = is_utils || host_validation::is_valid(&req, &self.allowed_hosts);
if !is_valid {
debug!(target: "dapps", "Rejecting invalid host header.");
self.handler = host_validation::host_invalid_response();
return self.handler.on_request(req);
}
trace!(target: "dapps", "Checking authorization.");
// Check authorization
let auth = self.authorization.is_authorized(&req);
if let auth::Authorized::No(handler) = auth {
debug!(target: "dapps", "Authorization denied.");
self.handler = handler;
return self.handler.on_request(req);
}
let control = self.control.take().expect("on_request is called only once; control is always defined at start; qed");
let control = control.clone();
debug!(target: "dapps", "Handling endpoint request: {:?}", endpoint);
self.handler = match (endpoint.0, endpoint.1, referer) {
let handler: Option<Box<Handler>> = match (endpoint.0, endpoint.1, referer) {
// Handle invalid web requests that we can recover from
(ref path, SpecialEndpoint::None, Some((ref referer, ref referer_url)))
if referer.app_id == apps::WEB_PATH
@ -100,26 +74,27 @@ impl<A: auth::Authorization + 'static> server::Handler<HttpStream> for Router<A>
let len = cmp::min(referer_url.path.len(), 2); // /web/<encoded>/
let base = referer_url.path[..len].join("/");
let requested = url.map(|u| u.path.join("/")).unwrap_or_default();
Redirection::boxed(&format!("/{}/{}", base, requested))
Some(Redirection::boxed(&format!("/{}/{}", base, requested)))
},
// First check special endpoints
(ref path, ref endpoint, _) if self.special.contains_key(endpoint) => {
trace!(target: "dapps", "Resolving to special endpoint.");
self.special.get(endpoint)
.expect("special known to contain key; qed")
.to_async_handler(path.clone().unwrap_or_default(), control)
.as_ref()
.map(|special| special.to_async_handler(path.clone().unwrap_or_default(), control))
},
// Then delegate to dapp
(Some(ref path), _, _) if self.endpoints.contains_key(&path.app_id) => {
trace!(target: "dapps", "Resolving to local/builtin dapp.");
self.endpoints.get(&path.app_id)
Some(self.endpoints.get(&path.app_id)
.expect("endpoints known to contain key; qed")
.to_async_handler(path.clone(), control)
.to_async_handler(path.clone(), control))
},
// Try to resolve and fetch the dapp
(Some(ref path), _, _) if self.fetch.contains(&path.app_id) => {
trace!(target: "dapps", "Resolving to fetchable content.");
self.fetch.to_async_handler(path.clone(), control)
Some(self.fetch.to_async_handler(path.clone(), control))
},
// NOTE [todr] /home is redirected to home page since some users may have the redirection cached
// (in the past we used 301 instead of 302)
@ -128,82 +103,61 @@ impl<A: auth::Authorization + 'static> server::Handler<HttpStream> for Router<A>
// 404 for non-existent content
(Some(ref path), _, _) if is_get_request && path.app_id != "home" => {
trace!(target: "dapps", "Resolving to 404.");
Box::new(ContentHandler::error(
Some(Box::new(ContentHandler::error(
StatusCode::NotFound,
"404 Not Found",
"Requested content was not found.",
None,
self.signer_address.clone(),
))
)))
},
// Redirect any other GET request to signer.
_ if is_get_request => {
if let Some(ref signer_address) = self.signer_address {
trace!(target: "dapps", "Redirecting to signer interface.");
Redirection::boxed(&format!("http://{}", address(signer_address)))
Some(Redirection::boxed(&format!("http://{}", address(signer_address))))
} else {
trace!(target: "dapps", "Signer disabled, returning 404.");
Box::new(ContentHandler::error(
Some(Box::new(ContentHandler::error(
StatusCode::NotFound,
"404 Not Found",
"Your homepage is not available when Trusted Signer is disabled.",
Some("You can still access dapps by writing a correct address, though. Re-enable Signer to get your homepage back."),
self.signer_address.clone(),
))
)))
}
},
// RPC by default
_ => {
trace!(target: "dapps", "Resolving to RPC call.");
self.special.get(&SpecialEndpoint::Rpc)
.expect("RPC endpoint always stored; qed")
.to_async_handler(EndpointPath::default(), control)
None
}
};
// Delegate on_request to proper handler
self.handler.on_request(req)
match handler {
Some(handler) => http::RequestMiddlewareAction::Respond {
should_validate_hosts: !(is_utils || is_dapps_domain),
handler: handler,
},
None => http::RequestMiddlewareAction::Proceed {
should_continue_on_invalid_cors: !is_origin_set,
},
}
/// This event occurs each time the `Request` is ready to be read from.
fn on_request_readable(&mut self, decoder: &mut Decoder<HttpStream>) -> Next {
self.handler.on_request_readable(decoder)
}
/// This event occurs after the first time this handled signals `Next::write()`.
fn on_response(&mut self, response: &mut server::Response) -> Next {
self.handler.on_response(response)
}
/// This event occurs each time the `Response` is ready to be written to.
fn on_response_writable(&mut self, encoder: &mut Encoder<HttpStream>) -> Next {
self.handler.on_response_writable(encoder)
}
}
impl<A: auth::Authorization> Router<A> {
impl<F> Router<F> {
pub fn new(
control: Control,
signer_address: Option<(String, u16)>,
content_fetcher: Arc<Fetcher>,
endpoints: Arc<Endpoints>,
special: Arc<HashMap<SpecialEndpoint, Box<Endpoint>>>,
authorization: Arc<A>,
allowed_hosts: Option<Vec<hosts::Host>>,
content_fetcher: F,
endpoints: Endpoints,
special: HashMap<SpecialEndpoint, Option<Box<Endpoint>>>,
) -> Self {
let handler = special.get(&SpecialEndpoint::Utils)
.expect("Utils endpoint always stored; qed")
.to_handler(EndpointPath::default());
Router {
control: Some(control),
signer_address: signer_address,
endpoints: endpoints,
fetch: content_fetcher,
special: special,
authorization: authorization,
allowed_hosts: allowed_hosts,
handler: handler,
}
}
}

View File

@ -1,106 +0,0 @@
// Copyright 2015-2017 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/>.
//! HTTP Authorization implementations
use std::collections::HashMap;
use hyper::{server, net, header, status};
use endpoint::Handler;
use handlers::{AuthRequiredHandler, ContentHandler};
/// Authorization result
pub enum Authorized {
/// Authorization was successful.
Yes,
/// Unsuccessful authorization. Handler for further work is returned.
No(Box<Handler>),
}
/// Authorization interface
pub trait Authorization : Send + Sync {
/// Checks if authorization is valid.
fn is_authorized(&self, req: &server::Request<net::HttpStream>)-> Authorized;
}
/// HTTP Basic Authorization handler
pub struct HttpBasicAuth {
users: HashMap<String, String>,
}
/// No-authorization implementation (authorization disabled)
pub struct NoAuth;
impl Authorization for NoAuth {
fn is_authorized(&self, _req: &server::Request<net::HttpStream>)-> Authorized {
Authorized::Yes
}
}
impl Authorization for HttpBasicAuth {
fn is_authorized(&self, req: &server::Request<net::HttpStream>) -> Authorized {
let auth = self.check_auth(&req);
match auth {
Access::Denied => {
Authorized::No(Box::new(ContentHandler::error(
status::StatusCode::Unauthorized,
"Unauthorized",
"You need to provide valid credentials to access this page.",
None,
None,
)))
},
Access::AuthRequired => {
Authorized::No(Box::new(AuthRequiredHandler))
},
Access::Granted => {
Authorized::Yes
},
}
}
}
#[derive(Debug)]
enum Access {
Granted,
Denied,
AuthRequired,
}
impl HttpBasicAuth {
/// Creates `HttpBasicAuth` instance with only one user.
pub fn single_user(username: &str, password: &str) -> Self {
let mut users = HashMap::new();
users.insert(username.to_owned(), password.to_owned());
HttpBasicAuth {
users: users
}
}
fn is_authorized(&self, username: &str, password: &str) -> bool {
self.users.get(&username.to_owned()).map_or(false, |pass| pass == password)
}
fn check_auth(&self, req: &server::Request<net::HttpStream>) -> Access {
match req.headers().get::<header::Authorization<header::Basic>>() {
Some(&header::Authorization(
header::Basic { ref username, password: Some(ref password) }
)) if self.is_authorized(username, password) => Access::Granted,
Some(_) => Access::Denied,
None => Access::AuthRequired,
}
}
}

View File

@ -1,42 +0,0 @@
// Copyright 2015-2017 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/>.
use apps::DAPPS_DOMAIN;
use hyper::{server, header, StatusCode};
use hyper::net::HttpStream;
use handlers::ContentHandler;
use jsonrpc_http_server;
use jsonrpc_server_utils::hosts;
pub fn is_valid(req: &server::Request<HttpStream>, allowed_hosts: &Option<Vec<hosts::Host>>) -> bool {
let header_valid = jsonrpc_http_server::is_host_allowed(req, allowed_hosts);
match (header_valid, req.headers().get::<header::Host>()) {
(true, _) => true,
(_, Some(host)) => host.hostname.ends_with(DAPPS_DOMAIN),
_ => false,
}
}
pub fn host_invalid_response() -> Box<server::Handler<HttpStream> + Send> {
Box::new(ContentHandler::error(StatusCode::Forbidden,
"Current Host Is Disallowed",
"You are trying to access your node using incorrect address.",
Some("Use allowed URL or specify different <code>hosts</code> CLI options."),
None,
))
}

View File

@ -66,14 +66,14 @@ impl<T: Middleware<Metadata>> Endpoint for RpcEndpoint<T> {
#[derive(Default)]
struct NoopMiddleware;
impl http::RequestMiddleware for NoopMiddleware {
fn on_request(&self, request: &http::hyper::server::Request<http::hyper::net::HttpStream>) -> http::RequestMiddlewareAction {
fn on_request(&self, request: &http::hyper::server::Request<http::hyper::net::HttpStream>, _control: &http::hyper::Control) -> http::RequestMiddlewareAction {
http::RequestMiddlewareAction::Proceed {
should_continue_on_invalid_cors: request.headers().get::<http::hyper::header::Origin>().is_none(),
}
}
}
struct MetadataExtractor;
pub struct MetadataExtractor;
impl HttpMetaExtractor<Metadata> for MetadataExtractor {
fn read_metadata(&self, request: &http::hyper::server::Request<http::hyper::net::HttpStream>) -> Metadata {
let dapp_id = request.headers().get::<http::hyper::header::Origin>()

View File

@ -14,7 +14,7 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use tests::helpers::{serve, serve_with_registrar, serve_extra_cors, request, assert_security_headers};
use tests::helpers::{serve, serve_with_registrar, request, assert_security_headers};
#[test]
fn should_return_error() {
@ -195,26 +195,3 @@ fn should_return_signer_port_cors_headers_for_home_parity_with_port() {
response.assert_status("HTTP/1.1 200 OK");
response.assert_header("Access-Control-Allow-Origin", "http://parity.web3.site:18180");
}
#[test]
fn should_return_extra_cors_headers() {
// given
let server = serve_extra_cors(Some(vec!["all".to_owned()]));
// when
let response = request(server,
"\
POST /api/ping HTTP/1.1\r\n\
Host: localhost:8080\r\n\
Origin: http://somedomain.io\r\n\
Connection: close\r\n\
\r\n\
{}
"
);
// then
response.assert_status("HTTP/1.1 200 OK");
response.assert_header("Access-Control-Allow-Origin", "http://somedomain.io");
}

View File

@ -1,80 +0,0 @@
// Copyright 2015-2017 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/>.
use tests::helpers::{serve_with_auth, request, assert_security_headers_for_embed};
#[test]
fn should_require_authorization() {
// given
let server = serve_with_auth("test", "test");
// when
let response = request(server,
"\
GET / HTTP/1.1\r\n\
Host: 127.0.0.1:8080\r\n\
Connection: close\r\n\
\r\n\
"
);
// then
assert_eq!(response.status, "HTTP/1.1 401 Unauthorized".to_owned());
assert_eq!(response.headers.get(0).unwrap(), "WWW-Authenticate: Basic realm=\"Parity\"");
}
#[test]
fn should_reject_on_invalid_auth() {
// given
let server = serve_with_auth("test", "test");
// when
let response = request(server,
"\
GET / HTTP/1.1\r\n\
Host: 127.0.0.1:8080\r\n\
Connection: close\r\n\
Authorization: Basic QWxhZGRpbjpPcGVuU2VzYW1l\r\n
\r\n\
"
);
// then
assert_eq!(response.status, "HTTP/1.1 401 Unauthorized".to_owned());
assert!(response.body.contains("Unauthorized"), response.body);
assert_eq!(response.headers_raw.contains("WWW-Authenticate"), false);
}
#[test]
fn should_allow_on_valid_auth() {
// given
let server = serve_with_auth("Aladdin", "OpenSesame");
// when
let response = request(server,
"\
GET /ui/ HTTP/1.1\r\n\
Host: 127.0.0.1:8080\r\n\
Connection: close\r\n\
Authorization: Basic QWxhZGRpbjpPcGVuU2VzYW1l\r\n
\r\n\
"
);
// then
assert_eq!(response.status, "HTTP/1.1 200 OK".to_owned());
assert_security_headers_for_embed(&response.headers);
}

View File

@ -16,18 +16,20 @@
use std::env;
use std::str;
use std::ops::Deref;
use std::net::SocketAddr;
use std::path::{Path, PathBuf};
use std::sync::Arc;
use env_logger::LogBuilder;
use ethcore_rpc::Metadata;
use jsonrpc_core::MetaIoHandler;
use jsonrpc_core::IoHandler;
use jsonrpc_http_server::{self as http, Host, DomainsValidation};
use ServerBuilder;
use Server;
use fetch::Fetch;
use devtools::http_client;
use hash_fetch::urlhint::ContractClient;
use fetch::{Fetch, Client as FetchClient};
use parity_reactor::{EventLoop, Remote};
use {Middleware, SyncStatus, WebProxyTokens};
mod registrar;
mod fetch;
@ -50,7 +52,7 @@ pub struct ServerLoop {
pub event_loop: EventLoop,
}
impl Deref for ServerLoop {
impl ::std::ops::Deref for ServerLoop {
type Target = Server;
fn deref(&self) -> &Self::Target {
@ -58,7 +60,7 @@ impl Deref for ServerLoop {
}
}
pub fn init_server<F, B>(process: F, io: MetaIoHandler<Metadata>, remote: Remote) -> (ServerLoop, Arc<FakeRegistrar>) where
pub fn init_server<F, B>(process: F, io: IoHandler, remote: Remote) -> (ServerLoop, Arc<FakeRegistrar>) where
F: FnOnce(ServerBuilder) -> ServerBuilder<B>,
B: Fetch,
{
@ -74,33 +76,15 @@ pub fn init_server<F, B>(process: F, io: MetaIoHandler<Metadata>, remote: Remote
&dapps_path, registrar.clone(), remote,
))
.signer_address(Some(("127.0.0.1".into(), SIGNER_PORT)))
.start_unsecured_http(&"127.0.0.1:0".parse().unwrap(), io, event_loop.raw_remote()).unwrap();
.start_unsecured_http(&"127.0.0.1:0".parse().unwrap(), io).unwrap();
(
ServerLoop { server: server, event_loop: event_loop },
registrar,
)
}
pub fn serve_with_auth(user: &str, pass: &str) -> ServerLoop {
init_logger();
let registrar = Arc::new(FakeRegistrar::new());
let mut dapps_path = env::temp_dir();
dapps_path.push("non-existent-dir-to-prevent-fs-files-from-loading");
let event_loop = EventLoop::spawn();
let io = MetaIoHandler::default();
let server = ServerBuilder::new(&dapps_path, registrar, event_loop.remote())
.signer_address(Some(("127.0.0.1".into(), SIGNER_PORT)))
.allowed_hosts(None.into())
.start_basic_auth_http(&"127.0.0.1:0".parse().unwrap(), user, pass, io, event_loop.raw_remote()).unwrap();
ServerLoop {
server: server,
event_loop: event_loop,
}
}
pub fn serve_with_rpc(io: MetaIoHandler<Metadata>) -> ServerLoop {
init_server(|builder| builder.allowed_hosts(None.into()), io, Remote::new_sync()).0
pub fn serve_with_rpc(io: IoHandler) -> ServerLoop {
init_server(|builder| builder, io, Remote::new_sync()).0
}
pub fn serve_hosts(hosts: Option<Vec<String>>) -> ServerLoop {
@ -108,20 +92,13 @@ pub fn serve_hosts(hosts: Option<Vec<String>>) -> ServerLoop {
init_server(|builder| builder.allowed_hosts(hosts.into()), Default::default(), Remote::new_sync()).0
}
pub fn serve_extra_cors(extra_cors: Option<Vec<String>>) -> ServerLoop {
let extra_cors = extra_cors.map(|cors| cors.into_iter().map(Into::into).collect());
init_server(|builder| builder.allowed_hosts(None.into()).extra_cors_headers(extra_cors.into()), Default::default(), Remote::new_sync()).0
}
pub fn serve_with_registrar() -> (ServerLoop, Arc<FakeRegistrar>) {
init_server(|builder| builder.allowed_hosts(None.into()), Default::default(), Remote::new_sync())
init_server(|builder| builder, Default::default(), Remote::new_sync())
}
pub fn serve_with_registrar_and_sync() -> (ServerLoop, Arc<FakeRegistrar>) {
init_server(|builder| {
builder
.sync_status(Arc::new(|| true))
.allowed_hosts(None.into())
builder.sync_status(Arc::new(|| true))
}, Default::default(), Remote::new_sync())
}
@ -133,7 +110,7 @@ pub fn serve_with_registrar_and_fetch_and_threads(multi_threaded: bool) -> (Serv
let fetch = FakeFetch::default();
let f = fetch.clone();
let (server, reg) = init_server(move |builder| {
builder.allowed_hosts(None.into()).fetch(f.clone())
builder.fetch(f.clone())
}, Default::default(), if multi_threaded { Remote::new_thread_per_future() } else { Remote::new_sync() });
(server, fetch, reg)
@ -144,7 +121,6 @@ pub fn serve_with_fetch(web_token: &'static str) -> (ServerLoop, FakeFetch) {
let f = fetch.clone();
let (server, _) = init_server(move |builder| {
builder
.allowed_hosts(None.into())
.fetch(f.clone())
.web_proxy_tokens(Arc::new(move |token| &token == web_token))
}, Default::default(), Remote::new_sync());
@ -153,7 +129,7 @@ pub fn serve_with_fetch(web_token: &'static str) -> (ServerLoop, FakeFetch) {
}
pub fn serve() -> ServerLoop {
init_server(|builder| builder.allowed_hosts(None.into()), Default::default(), Remote::new_sync()).0
init_server(|builder| builder, Default::default(), Remote::new_sync()).0
}
pub fn request(server: ServerLoop, request: &str) -> http_client::Response {
@ -166,3 +142,157 @@ pub fn assert_security_headers(headers: &[String]) {
pub fn assert_security_headers_for_embed(headers: &[String]) {
http_client::assert_security_headers_present(headers, Some(SIGNER_PORT))
}
/// Webapps HTTP+RPC server build.
pub struct ServerBuilder<T: Fetch = FetchClient> {
dapps_path: PathBuf,
registrar: Arc<ContractClient>,
sync_status: Arc<SyncStatus>,
web_proxy_tokens: Arc<WebProxyTokens>,
signer_address: Option<(String, u16)>,
allowed_hosts: DomainsValidation<Host>,
remote: Remote,
fetch: Option<T>,
}
impl ServerBuilder {
/// Construct new dapps server
pub fn new<P: AsRef<Path>>(dapps_path: P, registrar: Arc<ContractClient>, remote: Remote) -> Self {
ServerBuilder {
dapps_path: dapps_path.as_ref().to_owned(),
registrar: registrar,
sync_status: Arc::new(|| false),
web_proxy_tokens: Arc::new(|_| false),
signer_address: None,
allowed_hosts: DomainsValidation::Disabled,
remote: remote,
fetch: None,
}
}
}
impl<T: Fetch> ServerBuilder<T> {
/// Set a fetch client to use.
pub fn fetch<X: Fetch>(self, fetch: X) -> ServerBuilder<X> {
ServerBuilder {
dapps_path: self.dapps_path,
registrar: self.registrar,
sync_status: self.sync_status,
web_proxy_tokens: self.web_proxy_tokens,
signer_address: self.signer_address,
allowed_hosts: self.allowed_hosts,
remote: self.remote,
fetch: Some(fetch),
}
}
/// Change default sync status.
pub fn sync_status(mut self, status: Arc<SyncStatus>) -> Self {
self.sync_status = status;
self
}
/// Change default web proxy tokens validator.
pub fn web_proxy_tokens(mut self, tokens: Arc<WebProxyTokens>) -> Self {
self.web_proxy_tokens = tokens;
self
}
/// Change default signer port.
pub fn signer_address(mut self, signer_address: Option<(String, u16)>) -> Self {
self.signer_address = signer_address;
self
}
/// Change allowed hosts.
/// `None` - All hosts are allowed
/// `Some(whitelist)` - Allow only whitelisted hosts (+ listen address)
pub fn allowed_hosts(mut self, allowed_hosts: DomainsValidation<Host>) -> Self {
self.allowed_hosts = allowed_hosts;
self
}
/// Asynchronously start server with no authentication,
/// returns result with `Server` handle on success or an error.
pub fn start_unsecured_http(self, addr: &SocketAddr, io: IoHandler) -> Result<Server, http::Error> {
let fetch = self.fetch_client();
Server::start_http(
addr,
io,
self.allowed_hosts,
self.signer_address,
self.dapps_path,
vec![],
self.registrar,
self.sync_status,
self.web_proxy_tokens,
self.remote,
fetch,
)
}
fn fetch_client(&self) -> T {
match self.fetch.clone() {
Some(fetch) => fetch,
None => T::new().unwrap(),
}
}
}
/// Webapps HTTP server.
pub struct Server {
server: Option<http::Server>,
}
impl Server {
fn start_http<F: Fetch>(
addr: &SocketAddr,
io: IoHandler,
allowed_hosts: DomainsValidation<Host>,
signer_address: Option<(String, u16)>,
dapps_path: PathBuf,
extra_dapps: Vec<PathBuf>,
registrar: Arc<ContractClient>,
sync_status: Arc<SyncStatus>,
web_proxy_tokens: Arc<WebProxyTokens>,
remote: Remote,
fetch: F,
) -> Result<Server, http::Error> {
let middleware = Middleware::new(
remote,
signer_address,
dapps_path,
extra_dapps,
registrar,
sync_status,
web_proxy_tokens,
fetch,
);
http::ServerBuilder::new(io)
.request_middleware(middleware)
.allowed_hosts(allowed_hosts)
.cors(http::DomainsValidation::Disabled)
.start_http(addr)
.map(|server| Server {
server: Some(server),
})
}
/// Returns address that this server is bound to.
pub fn addr(&self) -> &SocketAddr {
self.server.as_ref()
.expect("server is always Some at the start; it's consumed only when object is dropped; qed")
.addrs()
.first()
.expect("You cannot start the server without binding to at least one address; qed")
}
}
impl Drop for Server {
fn drop(&mut self) {
self.server.take().unwrap().close()
}
}

View File

@ -19,7 +19,6 @@
mod helpers;
mod api;
mod authorization;
mod fetch;
mod redirection;
mod rpc;

View File

@ -14,16 +14,14 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use futures::{future, Future};
use ethcore_rpc::{Metadata, Origin};
use jsonrpc_core::{MetaIoHandler, Value};
use jsonrpc_core::{IoHandler, Value};
use tests::helpers::{serve_with_rpc, request};
#[test]
fn should_serve_rpc() {
// given
let mut io = MetaIoHandler::default();
let mut io = IoHandler::default();
io.add_method("rpc_test", |_| {
Ok(Value::String("Hello World!".into()))
});
@ -49,70 +47,3 @@ fn should_serve_rpc() {
response.assert_status("HTTP/1.1 200 OK");
assert_eq!(response.body, "31\n{\"jsonrpc\":\"2.0\",\"result\":\"Hello World!\",\"id\":1}\n\n0\n\n".to_owned());
}
#[test]
fn should_extract_metadata() {
// given
let mut io = MetaIoHandler::default();
io.add_method_with_meta("rpc_test", |_params, meta: Metadata| {
assert_eq!(meta.origin, Origin::Dapps("".into()));
assert_eq!(meta.dapp_id(), "".into());
future::ok(Value::String("Hello World!".into())).boxed()
});
let server = serve_with_rpc(io);
// when
let req = r#"{"jsonrpc":"2.0","id":1,"method":"rpc_test","params":[]}"#;
let response = request(server, &format!(
"\
POST /rpc/ HTTP/1.1\r\n\
Host: 127.0.0.1:8080\r\n\
Connection: close\r\n\
X-Parity-Origin: https://this.should.be.ignored\r\n\
Content-Type: application/json\r\n\
Content-Length: {}\r\n\
\r\n\
{}\r\n\
",
req.as_bytes().len(),
req,
));
// then
response.assert_status("HTTP/1.1 200 OK");
assert_eq!(response.body, "31\n{\"jsonrpc\":\"2.0\",\"result\":\"Hello World!\",\"id\":1}\n\n0\n\n".to_owned());
}
#[test]
fn should_extract_metadata_from_custom_header() {
// given
let mut io = MetaIoHandler::default();
io.add_method_with_meta("rpc_test", |_params, meta: Metadata| {
assert_eq!(meta.origin, Origin::Dapps("https://parity.io/".into()));
assert_eq!(meta.dapp_id(), "https://parity.io/".into());
future::ok(Value::String("Hello World!".into())).boxed()
});
let server = serve_with_rpc(io);
// when
let req = r#"{"jsonrpc":"2.0","id":1,"method":"rpc_test","params":[]}"#;
let response = request(server, &format!(
"\
POST /rpc/ HTTP/1.1\r\n\
Host: 127.0.0.1:8080\r\n\
Connection: close\r\n\
Origin: null\r\n\
X-Parity-Origin: https://parity.io/\r\n\
Content-Type: application/json\r\n\
Content-Length: {}\r\n\
\r\n\
{}\r\n\
",
req.as_bytes().len(),
req,
));
// then
response.assert_status("HTTP/1.1 200 OK");
assert_eq!(response.body, "31\n{\"jsonrpc\":\"2.0\",\"result\":\"Hello World!\",\"id\":1}\n\n0\n\n".to_owned());
}

View File

@ -34,7 +34,7 @@ fn should_reject_invalid_host() {
// then
assert_eq!(response.status, "HTTP/1.1 403 Forbidden".to_owned());
assert!(response.body.contains("Current Host Is Disallowed"), response.body);
assert!(response.body.contains("Provided Host header is not whitelisted."), response.body);
}
#[test]
@ -97,31 +97,3 @@ fn should_allow_parity_utils_even_on_invalid_domain() {
// then
assert_eq!(response.status, "HTTP/1.1 200 OK".to_owned());
}
#[test]
fn should_not_return_cors_headers_for_rpc() {
// given
let server = serve_hosts(Some(vec!["localhost:8080".into()]));
// when
let response = request(server,
"\
POST /rpc HTTP/1.1\r\n\
Host: localhost:8080\r\n\
Origin: null\r\n\
Content-Type: application/json\r\n\
Connection: close\r\n\
\r\n\
{}
"
);
// then
assert_eq!(response.status, "HTTP/1.1 200 OK".to_owned());
assert!(
!response.headers_raw.contains("Access-Control-Allow-Origin"),
"CORS headers were not expected: {:?}",
response.headers
);
}

View File

@ -8,7 +8,10 @@ RUN apt-get update && \
curl \
git \
file \
binutils
binutils \
libssl-dev \
pkg-config \
libudev-dev
# install rustup
RUN curl https://sh.rustup.rs -sSf | sh -s -- -y

View File

@ -11,44 +11,46 @@ build = "build.rs"
"ethcore-ipc-codegen" = { path = "../ipc/codegen" }
[dependencies]
log = "0.3"
env_logger = "0.4"
rustc-serialize = "0.3"
rust-crypto = "0.2.34"
num_cpus = "1.2"
crossbeam = "0.2.9"
lazy_static = "0.2"
bloomchain = "0.1"
semver = "0.6"
bit-set = "0.4"
time = "0.1"
rand = "0.3"
byteorder = "1.0"
transient-hashmap = "0.4"
linked-hash-map = "0.3.0"
lru-cache = "0.1.0"
itertools = "0.5"
ethabi = "1.0.0"
evmjit = { path = "../evmjit", optional = true }
clippy = { version = "0.0.103", optional = true}
ethash = { path = "../ethash" }
ethcore-util = { path = "../util" }
ethcore-io = { path = "../util/io" }
ethcore-devtools = { path = "../devtools" }
ethjson = { path = "../json" }
ethcore-ipc = { path = "../ipc/rpc" }
ethstore = { path = "../ethstore" }
ethkey = { path = "../ethkey" }
ethcore-ipc-nano = { path = "../ipc/nano" }
rlp = { path = "../util/rlp" }
ethcore-stratum = { path = "../stratum" }
ethcore-bloom-journal = { path = "../util/bloom" }
hardware-wallet = { path = "../hw" }
ethcore-logger = { path = "../logger" }
stats = { path = "../util/stats" }
hyper = { git = "https://github.com/paritytech/hyper", default-features = false }
num = "0.1"
bloomchain = "0.1"
bn = { git = "https://github.com/paritytech/bn" }
byteorder = "1.0"
clippy = { version = "0.0.103", optional = true}
crossbeam = "0.2.9"
env_logger = "0.4"
ethabi = "1.0.0"
ethash = { path = "../ethash" }
ethcore-bloom-journal = { path = "../util/bloom" }
ethcore-devtools = { path = "../devtools" }
ethcore-io = { path = "../util/io" }
ethcore-ipc = { path = "../ipc/rpc" }
ethcore-ipc-nano = { path = "../ipc/nano" }
ethcore-logger = { path = "../logger" }
ethcore-stratum = { path = "../stratum" }
ethcore-util = { path = "../util" }
ethjson = { path = "../json" }
ethkey = { path = "../ethkey" }
ethstore = { path = "../ethstore" }
evmjit = { path = "../evmjit", optional = true }
futures = "0.1"
hardware-wallet = { path = "../hw" }
hyper = { git = "https://github.com/paritytech/hyper", default-features = false }
itertools = "0.5"
lazy_static = "0.2"
linked-hash-map = "0.3.0"
log = "0.3"
lru-cache = "0.1.0"
native-contracts = { path = "native_contracts" }
num = "0.1"
num_cpus = "1.2"
rand = "0.3"
rlp = { path = "../util/rlp" }
rust-crypto = "0.2.34"
rustc-serialize = "0.3"
semver = "0.6"
stats = { path = "../util/stats" }
time = "0.1"
transient-hashmap = "0.4"
[features]
jit = ["evmjit"]

View File

@ -0,0 +1,15 @@
[package]
name = "native-contracts"
description = "Generated Rust code for Ethereum contract ABIs"
version = "0.1.0"
authors = ["Parity Technologies <admin@parity.io>"]
build = "build.rs"
[dependencies]
ethabi = "1.0"
futures = "0.1"
byteorder = "1.0"
ethcore-util = { path = "../../util" }
[build-dependencies]
native-contract-generator = { path = "generator" }

View File

@ -0,0 +1,40 @@
// Copyright 2015-2017 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 native_contract_generator;
use std::path::Path;
use std::fs::File;
use std::io::Write;
// TODO: `include!` these from files where they're pretty-printed?
const REGISTRY_ABI: &'static str = r#"[{"constant":true,"inputs":[{"name":"_data","type":"address"}],"name":"canReverse","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_new","type":"address"}],"name":"setOwner","outputs":[],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"},{"name":"_value","type":"bytes32"}],"name":"setData","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"string"}],"name":"confirmReverse","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"bytes32"}],"name":"reserve","outputs":[{"name":"success","type":"bool"}],"payable":true,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"bytes32"}],"name":"drop","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"}],"name":"getAddress","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_amount","type":"uint256"}],"name":"setFee","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_to","type":"address"}],"name":"transfer","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"},{"constant":true,"inputs":[],"name":"owner","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"}],"name":"getData","outputs":[{"name":"","type":"bytes32"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_name","type":"bytes32"}],"name":"reserved","outputs":[{"name":"reserved","type":"bool"}],"payable":false,"type":"function"},{"constant":false,"inputs":[],"name":"drain","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"string"},{"name":"_who","type":"address"}],"name":"proposeReverse","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_name","type":"bytes32"}],"name":"hasReverse","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"}],"name":"getUint","outputs":[{"name":"","type":"uint256"}],"payable":false,"type":"function"},{"constant":true,"inputs":[],"name":"fee","outputs":[{"name":"","type":"uint256"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_name","type":"bytes32"}],"name":"getOwner","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_name","type":"bytes32"}],"name":"getReverse","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_data","type":"address"}],"name":"reverse","outputs":[{"name":"","type":"string"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"},{"name":"_value","type":"uint256"}],"name":"setUint","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"string"},{"name":"_who","type":"address"}],"name":"confirmReverseAs","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"},{"constant":false,"inputs":[],"name":"removeReverse","outputs":[],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"},{"name":"_value","type":"address"}],"name":"setAddress","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}]"#;
const SERVICE_TRANSACTION_ABI: &'static str = r#"[{"constant":false,"inputs":[{"name":"_new","type":"address"}],"name":"setOwner","outputs":[],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_who","type":"address"}],"name":"certify","outputs":[],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_who","type":"address"},{"name":"_field","type":"string"}],"name":"getAddress","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_who","type":"address"}],"name":"revoke","outputs":[],"payable":false,"type":"function"},{"constant":true,"inputs":[],"name":"owner","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"},{"constant":true,"inputs":[],"name":"delegate","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_who","type":"address"},{"name":"_field","type":"string"}],"name":"getUint","outputs":[{"name":"","type":"uint256"}],"payable":false,"type":"function"},{"constant":false,"inputs":[{"name":"_new","type":"address"}],"name":"setDelegate","outputs":[],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_who","type":"address"}],"name":"certified","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"},{"constant":true,"inputs":[{"name":"_who","type":"address"},{"name":"_field","type":"string"}],"name":"get","outputs":[{"name":"","type":"bytes32"}],"payable":false,"type":"function"}]"#;
fn build_file(name: &str, abi: &str, filename: &str) {
let code = ::native_contract_generator::generate_module(name, abi).unwrap();
let out_dir = ::std::env::var("OUT_DIR").unwrap();
let dest_path = Path::new(&out_dir).join(filename);
let mut f = File::create(&dest_path).unwrap();
f.write_all(code.as_bytes()).unwrap();
}
fn main() {
build_file("Registry", REGISTRY_ABI, "registry.rs");
build_file("ServiceTransactionChecker", SERVICE_TRANSACTION_ABI, "service_transaction.rs");
}

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@ -0,0 +1,9 @@
[package]
name = "native-contract-generator"
description = "Generates Rust code for ethereum contract ABIs"
version = "0.1.0"
authors = ["Parity Technologies <admin@parity.io>"]
[dependencies]
ethabi = "1.0.2"
heck = "0.2"

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@ -0,0 +1,346 @@
// Copyright 2015-2017 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/>.
//! Rust code contract generator.
//! The code generated will require a dependence on the `ethcore-util`,
//! `ethabi`, `byteorder`, and `futures` crates.
//! This currently isn't hygienic, so compilation of generated code may fail
//! due to missing crates or name collisions. This will change when
//! it can be ported to a procedural macro.
use ethabi::Contract;
use ethabi::spec::{Interface, ParamType, Error as AbiError};
use heck::SnakeCase;
extern crate ethabi;
extern crate heck;
/// Errors in generation.
#[derive(Debug)]
pub enum Error {
/// Bad ABI.
Abi(AbiError),
/// Unsupported parameter type in given function.
UnsupportedType(String, ParamType),
}
/// Given an ABI string, generate code for a a Rust module containing
/// a struct which can be used to call it.
// TODO: make this a proc macro when that's possible.
pub fn generate_module(struct_name: &str, abi: &str) -> Result<String, Error> {
let contract = Contract::new(Interface::load(abi.as_bytes()).map_err(Error::Abi)?);
let functions = generate_functions(&contract)?;
Ok(format!(r##"
use byteorder::{{BigEndian, ByteOrder}};
use futures::{{future, Future, BoxFuture}};
use ethabi::{{Contract, Interface, Token}};
use util::{{self, Uint}};
pub struct {name} {{
contract: Contract,
/// Address to make calls to.
pub address: util::Address,
}}
const ABI: &'static str = r#"{abi_str}"#;
impl {name} {{
/// Create a new instance of `{name}` with an address.
/// Calls can be made, given a callback for dispatching calls asynchronously.
pub fn new(address: util::Address) -> Self {{
let contract = Contract::new(Interface::load(ABI.as_bytes())
.expect("ABI checked at generation-time; qed"));
{name} {{
contract: contract,
address: address,
}}
}}
{functions}
}}
"##,
name = struct_name,
abi_str = abi,
functions = functions,
))
}
// generate function bodies from the ABI.
fn generate_functions(contract: &Contract) -> Result<String, Error> {
let mut functions = String::new();
for function in contract.functions() {
let name = function.name();
let snake_name = name.to_snake_case();
let inputs = function.input_params();
let outputs = function.output_params();
let (input_params, to_tokens) = input_params_codegen(&inputs)
.map_err(|bad_type| Error::UnsupportedType(name.into(), bad_type))?;
let (output_type, decode_outputs) = output_params_codegen(&outputs)
.map_err(|bad_type| Error::UnsupportedType(name.into(), bad_type))?;
functions.push_str(&format!(r##"
/// Call the function "{abi_name}" on the contract.
/// Inputs: {abi_inputs:?}
/// Outputs: {abi_outputs:?}
pub fn {snake_name}<F, U>(&self, call: F, {params}) -> BoxFuture<{output_type}, String>
where F: Fn(util::Address, Vec<u8>) -> U, U: Future<Item=Vec<u8>, Error=String> + Send + 'static
{{
let function = self.contract.function(r#"{abi_name}"#.to_string())
.expect("function existence checked at compile-time; qed");
let call_addr = self.address;
let call_future = match function.encode_call({to_tokens}) {{
Ok(call_data) => (call)(call_addr, call_data),
Err(e) => return future::err(format!("Error encoding call: {{:?}}", e)).boxed(),
}};
call_future
.and_then(move |out| function.decode_output(out).map_err(|e| format!("{{:?}}", e)))
.map(::std::collections::VecDeque::from)
.and_then(|mut outputs| {decode_outputs})
.boxed()
}}
"##,
abi_name = name,
abi_inputs = inputs,
abi_outputs = outputs,
snake_name = snake_name,
params = input_params,
output_type = output_type,
to_tokens = to_tokens,
decode_outputs = decode_outputs,
))
}
Ok(functions)
}
// generate code for params in function signature and turning them into tokens.
//
// two pieces of code are generated: the first gives input types for the function signature,
// and the second gives code to tokenize those inputs.
//
// params of form `param_0: type_0, param_1: type_1, ...`
// tokenizing code of form `{let mut tokens = Vec::new(); tokens.push({param_X}); tokens }`
//
// returns any unsupported param type encountered.
fn input_params_codegen(inputs: &[ParamType]) -> Result<(String, String), ParamType> {
let mut params = String::new();
let mut to_tokens = "{ let mut tokens = Vec::new();".to_string();
for (index, param_type) in inputs.iter().enumerate() {
let param_name = format!("param_{}", index);
let rust_type = rust_type(param_type.clone())?;
let (needs_mut, tokenize_code) = tokenize(&param_name, param_type.clone());
params.push_str(&format!("{}{}: {}, ",
if needs_mut { "mut " } else { "" }, param_name, rust_type));
to_tokens.push_str(&format!("tokens.push({{ {} }});", tokenize_code));
}
to_tokens.push_str(" tokens }");
Ok((params, to_tokens))
}
// generate code for outputs of the function and detokenizing them.
//
// two pieces of code are generated: the first gives an output type for the function signature
// as a tuple, and the second gives code to get that tuple from a deque of tokens.
//
// produce output type of the form (type_1, type_2, ...) without trailing comma.
// produce code for getting this output type from `outputs: VecDeque<Token>`, where
// an `Err(String)` can be returned.
//
// returns any unsupported param type encountered.
fn output_params_codegen(outputs: &[ParamType]) -> Result<(String, String), ParamType> {
let mut output_type = "(".to_string();
let mut decode_outputs = "Ok((".to_string();
for (index, output) in outputs.iter().cloned().enumerate() {
let rust_type = rust_type(output.clone())?;
output_type.push_str(&rust_type);
decode_outputs.push_str(&format!(
r#"
outputs
.pop_front()
.and_then(|output| {{ {} }})
.ok_or_else(|| "Wrong output type".to_string())?
"#,
detokenize("output", output)
));
// don't append trailing commas for the last element
// so we can reuse the same code for single-output contracts,
// since T == (T) != (T,)
if index < outputs.len() - 1 {
output_type.push_str(", ");
decode_outputs.push_str(", ");
}
}
output_type.push_str(")");
decode_outputs.push_str("))");
Ok((output_type, decode_outputs))
}
// create code for an argument type from param type.
fn rust_type(input: ParamType) -> Result<String, ParamType> {
Ok(match input {
ParamType::Address => "util::Address".into(),
ParamType::FixedBytes(len) if len <= 32 => format!("util::H{}", len * 8),
ParamType::Bytes | ParamType::FixedBytes(_) => "Vec<u8>".into(),
ParamType::Int(width) => match width {
8 | 16 | 32 | 64 => format!("i{}", width),
_ => return Err(ParamType::Int(width)),
},
ParamType::Uint(width) => match width {
8 | 16 | 32 | 64 => format!("u{}", width),
128 | 160 | 256 => format!("util::U{}", width),
_ => return Err(ParamType::Uint(width)),
},
ParamType::Bool => "bool".into(),
ParamType::String => "String".into(),
ParamType::Array(kind) => format!("Vec<{}>", rust_type(*kind)?),
other => return Err(other),
})
}
// create code for tokenizing this parameter.
// returns (needs_mut, code), where needs_mut indicates mutability required.
// panics on unsupported types.
fn tokenize(name: &str, input: ParamType) -> (bool, String) {
let mut needs_mut = false;
let code = match input {
ParamType::Address => format!("Token::Address({}.0)", name),
ParamType::Bytes => format!("Token::Bytes({})", name),
ParamType::FixedBytes(len) if len <= 32 =>
format!("Token::FixedBytes({}.0.to_vec())", name),
ParamType::FixedBytes(len) => {
needs_mut = true;
format!("{}.resize({}, 0); Token::FixedBytes({})", name, len, name)
}
ParamType::Int(width) => match width {
8 => format!("let mut r = [0xff; 32]; r[31] = {}; Token::Int(r)", name),
16 | 32 | 64 =>
format!("let mut r = [0xff; 32]; BigEndian::write_i{}(&mut r[{}..], {}); Token::Int(r))",
width, 32 - (width / 8), name),
_ => panic!("Signed int with more than 64 bits not supported."),
},
ParamType::Uint(width) => format!(
"let mut r = [0; 32]; {}.to_big_endian(&mut r); Token::Uint(r)",
if width <= 64 { format!("util::U256::from({} as u64)", name) }
else { format!("util::U256::from({})", name) }
),
ParamType::Bool => format!("Token::Bool({})", name),
ParamType::String => format!("Token::String({})", name),
ParamType::Array(kind) => {
let (needs_mut, code) = tokenize("i", *kind);
format!("Token::Array({}.into_iter().map(|{}i| {{ {} }}).collect())",
name, if needs_mut { "mut " } else { "" }, code)
}
ParamType::FixedArray(_, _) => panic!("Fixed-length arrays not supported."),
};
(needs_mut, code)
}
// create code for detokenizing this parameter.
// takes an output type and the identifier of a token.
// expands to code that evaluates to a Option<concrete type>
// panics on unsupported types.
fn detokenize(name: &str, output_type: ParamType) -> String {
match output_type {
ParamType::Address => format!("{}.to_address().map(util::H160)", name),
ParamType::Bytes => format!("{}.to_bytes()", name),
ParamType::FixedBytes(len) if len <= 32 => {
// ensure no panic on slice too small.
let read_hash = format!("b.resize({}, 0); util::H{}::from_slice(&b[..{}])",
len, len * 8, len);
format!("{}.to_fixed_bytes().map(|mut b| {{ {} }})",
name, read_hash)
}
ParamType::FixedBytes(_) => format!("{}.to_fixed_bytes()", name),
ParamType::Int(width) => {
let read_int = match width {
8 => "i[31] as i8".into(),
16 | 32 | 64 => format!("BigEndian::read_i{}(&i[{}..])", width, 32 - (width / 8)),
_ => panic!("Signed integers over 64 bytes not allowed."),
};
format!("{}.to_int().map(|i| {})", name, read_int)
}
ParamType::Uint(width) => {
let read_uint = match width {
8 | 16 | 32 | 64 => format!("util::U256(u).low_u64() as u{}", width),
_ => format!("util::U{}::from(&u[..])", width),
};
format!("{}.to_uint().map(|u| {})", name, read_uint)
}
ParamType::Bool => format!("{}.to_bool()", name),
ParamType::String => format!("{}.to_string()", name),
ParamType::Array(kind) => {
let read_array = format!("x.into_iter().map(|a| {{ {} }}).collect::<Option<Vec<_>>()",
detokenize("a", *kind));
format!("{}.to_array().and_then(|x| {})",
name, read_array)
}
ParamType::FixedArray(_, _) => panic!("Fixed-length arrays not supported.")
}
}
#[cfg(test)]
mod tests {
use ethabi::spec::ParamType;
#[test]
fn input_types() {
assert_eq!(::input_params_codegen(&[]).unwrap().0, "");
assert_eq!(::input_params_codegen(&[ParamType::Address]).unwrap().0, "param_0: util::Address, ");
assert_eq!(::input_params_codegen(&[ParamType::Address, ParamType::Bytes]).unwrap().0,
"param_0: util::Address, param_1: Vec<u8>, ");
}
#[test]
fn output_types() {
assert_eq!(::output_params_codegen(&[]).unwrap().0, "()");
assert_eq!(::output_params_codegen(&[ParamType::Address]).unwrap().0, "(util::Address)");
assert_eq!(::output_params_codegen(&[ParamType::Address, ParamType::Array(Box::new(ParamType::Bytes))]).unwrap().0,
"(util::Address, Vec<Vec<u8>>)");
}
#[test]
fn rust_type() {
assert_eq!(::rust_type(ParamType::FixedBytes(32)).unwrap(), "util::H256");
assert_eq!(::rust_type(ParamType::Array(Box::new(ParamType::FixedBytes(32)))).unwrap(),
"Vec<util::H256>");
assert_eq!(::rust_type(ParamType::Uint(64)).unwrap(), "u64");
assert!(::rust_type(ParamType::Uint(63)).is_err());
assert_eq!(::rust_type(ParamType::Int(32)).unwrap(), "i32");
assert_eq!(::rust_type(ParamType::Uint(256)).unwrap(), "util::U256");
}
// codegen tests will need bootstrapping of some kind.
}

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@ -0,0 +1,30 @@
// Copyright 2015-2017 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/>.
//! Native contracts useful for Parity. These are type-safe wrappers
//! autogenerated at compile-time from Ethereum ABIs, and can be instantiated
//! given any closure which can dispatch calls to them asynchronously.
extern crate futures;
extern crate byteorder;
extern crate ethabi;
extern crate ethcore_util as util;
mod registry;
mod service_transaction;
pub use self::registry::Registry;
pub use self::service_transaction::ServiceTransactionChecker;

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@ -0,0 +1,22 @@
// Copyright 2015-2017 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/>.
#![allow(unused_mut, unused_variables, unused_imports)]
//! Registrar contract: maps names to addresses and data.
// TODO: testing.
include!(concat!(env!("OUT_DIR"), "/registry.rs"));

View File

@ -0,0 +1,22 @@
// Copyright 2015-2017 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/>.
#![allow(unused_mut, unused_variables, unused_imports)]
//! Service transaction contract.
// TODO: testing.
include!(concat!(env!("OUT_DIR"), "/service_transaction.rs"));

View File

@ -15,11 +15,11 @@
"difficultyHardforkTransition": "0x59d9",
"difficultyHardforkBoundDivisor": "0x0200",
"bombDefuseTransition": "0x30d40",
"eip150Transition": "0x7fffffffffffffff",
"eip155Transition": "0x7fffffffffffffff",
"eip160Transition": "0x7fffffffffffffff",
"eip161abcTransition": "0x7fffffffffffffff",
"eip161dTransition": "0x7fffffffffffffff"
"eip150Transition": "0x927C0",
"eip155Transition": "0x927C0",
"eip160Transition": "0x927C0",
"eip161abcTransition": "0x927C0",
"eip161dTransition": "0x927C0"
}
}
},
@ -28,6 +28,7 @@
"maximumExtraDataSize": "0x20",
"minGasLimit": "0x1388",
"networkID": "0x1",
"chainID": "0x2",
"subprotocolName": "exp",
"eip98Transition": "0x7fffffffffffff"
},

View File

@ -30,47 +30,48 @@ use util::trie::TrieSpec;
use util::kvdb::*;
// other
use io::*;
use views::BlockView;
use error::{ImportError, ExecutionError, CallError, BlockError, ImportResult, Error as EthcoreError};
use header::BlockNumber;
use state::{self, State, CleanupMode};
use spec::Spec;
use basic_types::Seal;
use engines::Engine;
use service::ClientIoMessage;
use env_info::LastHashes;
use verification;
use verification::{PreverifiedBlock, Verifier};
use block::*;
use transaction::{LocalizedTransaction, UnverifiedTransaction, SignedTransaction, Transaction, PendingTransaction, Action};
use blockchain::extras::TransactionAddress;
use types::filter::Filter;
use types::mode::Mode as IpcMode;
use log_entry::LocalizedLogEntry;
use verification::queue::BlockQueue;
use blockchain::{BlockChain, BlockProvider, TreeRoute, ImportRoute};
use blockchain::extras::TransactionAddress;
use client::Error as ClientError;
use client::{
BlockId, TransactionId, UncleId, TraceId, ClientConfig, BlockChainClient,
MiningBlockChainClient, EngineClient, TraceFilter, CallAnalytics, BlockImportError, Mode,
ChainNotify, PruningInfo,
};
use client::Error as ClientError;
use env_info::EnvInfo;
use executive::{Executive, Executed, TransactOptions, contract_address};
use receipt::{Receipt, LocalizedReceipt};
use trace::{TraceDB, ImportRequest as TraceImportRequest, LocalizedTrace, Database as TraceDatabase};
use trace;
use trace::FlatTransactionTraces;
use evm::{Factory as EvmFactory, Schedule};
use miner::{Miner, MinerService, TransactionImportResult};
use snapshot::{self, io as snapshot_io};
use factory::Factories;
use rlp::UntrustedRlp;
use state_db::StateDB;
use rand::OsRng;
use client::registry::Registry;
use encoded;
use engines::Engine;
use env_info::EnvInfo;
use env_info::LastHashes;
use error::{ImportError, ExecutionError, CallError, BlockError, ImportResult, Error as EthcoreError};
use evm::{Factory as EvmFactory, Schedule};
use executive::{Executive, Executed, TransactOptions, contract_address};
use factory::Factories;
use futures::{future, Future};
use header::BlockNumber;
use io::*;
use log_entry::LocalizedLogEntry;
use miner::{Miner, MinerService, TransactionImportResult};
use native_contracts::Registry;
use rand::OsRng;
use receipt::{Receipt, LocalizedReceipt};
use rlp::UntrustedRlp;
use service::ClientIoMessage;
use snapshot::{self, io as snapshot_io};
use spec::Spec;
use state_db::StateDB;
use state::{self, State, CleanupMode};
use trace;
use trace::{TraceDB, ImportRequest as TraceImportRequest, LocalizedTrace, Database as TraceDatabase};
use trace::FlatTransactionTraces;
use transaction::{LocalizedTransaction, UnverifiedTransaction, SignedTransaction, Transaction, PendingTransaction, Action};
use types::filter::Filter;
use types::mode::Mode as IpcMode;
use verification;
use verification::{PreverifiedBlock, Verifier};
use verification::queue::BlockQueue;
use views::BlockView;
// re-export
pub use types::blockchain_info::BlockChainInfo;
@ -254,8 +255,7 @@ impl Client {
if let Some(reg_addr) = client.additional_params().get("registrar").and_then(|s| Address::from_str(s).ok()) {
trace!(target: "client", "Found registrar at {}", reg_addr);
let weak = Arc::downgrade(&client);
let registrar = Registry::new(reg_addr, move |a, d| weak.upgrade().ok_or("No client!".into()).and_then(|c| c.call_contract(BlockId::Latest, a, d)));
let registrar = Registry::new(reg_addr);
*client.registrar.lock() = Some(registrar);
}
Ok(client)
@ -1488,12 +1488,17 @@ impl BlockChainClient for Client {
}
fn registrar_address(&self) -> Option<Address> {
self.registrar.lock().as_ref().map(|r| r.address.clone())
self.registrar.lock().as_ref().map(|r| r.address)
}
fn registry_address(&self, name: String) -> Option<Address> {
self.registrar.lock().as_ref()
.and_then(|r| r.get_address(&(name.as_bytes().sha3()), "A").ok())
.and_then(|r| {
let dispatch = move |reg_addr, data| {
future::done(self.call_contract(BlockId::Latest, reg_addr, data))
};
r.get_address(dispatch, name.as_bytes().sha3(), "A".to_string()).wait().ok()
})
.and_then(|a| if a.is_zero() { None } else { Some(a) })
}
}

View File

@ -16,7 +16,6 @@
//! Blockchain database client.
mod registry;
mod config;
mod error;
mod test_client;

View File

@ -1,338 +0,0 @@
// Autogenerated from JSON contract definition using Rust contract convertor.
// Command line: --name=Registry --jsonabi=/Users/gav/registry.abi
#![allow(unused_imports)]
use std::string::String;
use std::result::Result;
use std::fmt;
use {util, ethabi};
use util::{Uint};
pub struct Registry {
contract: ethabi::Contract,
pub address: util::Address,
do_call: Box<Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send + Sync + 'static>,
}
impl Registry {
pub fn new<F>(address: util::Address, do_call: F) -> Self
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send + Sync + 'static {
Registry {
contract: ethabi::Contract::new(ethabi::Interface::load(b"[{\"constant\":true,\"inputs\":[{\"name\":\"_data\",\"type\":\"address\"}],\"name\":\"canReverse\",\"outputs\":[{\"name\":\"\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_new\",\"type\":\"address\"}],\"name\":\"setOwner\",\"outputs\":[],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"},{\"name\":\"_key\",\"type\":\"string\"},{\"name\":\"_value\",\"type\":\"bytes32\"}],\"name\":\"setData\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"string\"}],\"name\":\"confirmReverse\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"}],\"name\":\"reserve\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":true,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"}],\"name\":\"drop\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"},{\"name\":\"_key\",\"type\":\"string\"}],\"name\":\"getAddress\",\"outputs\":[{\"name\":\"\",\"type\":\"address\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_amount\",\"type\":\"uint256\"}],\"name\":\"setFee\",\"outputs\":[{\"name\":\"\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"},{\"name\":\"_to\",\"type\":\"address\"}],\"name\":\"transfer\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[],\"name\":\"owner\",\"outputs\":[{\"name\":\"\",\"type\":\"address\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"},{\"name\":\"_key\",\"type\":\"string\"}],\"name\":\"getData\",\"outputs\":[{\"name\":\"\",\"type\":\"bytes32\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"}],\"name\":\"reserved\",\"outputs\":[{\"name\":\"reserved\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[],\"name\":\"drain\",\"outputs\":[{\"name\":\"\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"string\"},{\"name\":\"_who\",\"type\":\"address\"}],\"name\":\"proposeReverse\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"}],\"name\":\"hasReverse\",\"outputs\":[{\"name\":\"\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"},{\"name\":\"_key\",\"type\":\"string\"}],\"name\":\"getUint\",\"outputs\":[{\"name\":\"\",\"type\":\"uint256\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[],\"name\":\"fee\",\"outputs\":[{\"name\":\"\",\"type\":\"uint256\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"}],\"name\":\"getOwner\",\"outputs\":[{\"name\":\"\",\"type\":\"address\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"}],\"name\":\"getReverse\",\"outputs\":[{\"name\":\"\",\"type\":\"address\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_data\",\"type\":\"address\"}],\"name\":\"reverse\",\"outputs\":[{\"name\":\"\",\"type\":\"string\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"},{\"name\":\"_key\",\"type\":\"string\"},{\"name\":\"_value\",\"type\":\"uint256\"}],\"name\":\"setUint\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"string\"},{\"name\":\"_who\",\"type\":\"address\"}],\"name\":\"confirmReverseAs\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[],\"name\":\"removeReverse\",\"outputs\":[],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_name\",\"type\":\"bytes32\"},{\"name\":\"_key\",\"type\":\"string\"},{\"name\":\"_value\",\"type\":\"address\"}],\"name\":\"setAddress\",\"outputs\":[{\"name\":\"success\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"}]").expect("JSON is autogenerated; qed")),
address: address,
do_call: Box::new(do_call),
}
}
fn as_string<T: fmt::Debug>(e: T) -> String { format!("{:?}", e) }
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_data","type":"address"}],"name":"canReverse","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn can_reverse(&self, _data: &util::Address) -> Result<bool, String>
{
let call = self.contract.function("canReverse".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_data.clone().0)]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_new","type":"address"}],"name":"setOwner","outputs":[],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn set_owner(&self, _new: &util::Address) -> Result<(), String>
{
let call = self.contract.function("setOwner".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_new.clone().0)]
).map_err(Self::as_string)?;
call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
Ok(())
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"},{"name":"_value","type":"bytes32"}],"name":"setData","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn set_data(&self, _name: &util::H256, _key: &str, _value: &util::H256) -> Result<bool, String>
{
let call = self.contract.function("setData".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned()), ethabi::Token::String(_key.to_owned()), ethabi::Token::FixedBytes(_value.as_ref().to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"string"}],"name":"confirmReverse","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn confirm_reverse(&self, _name: &str) -> Result<bool, String>
{
let call = self.contract.function("confirmReverse".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::String(_name.to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"bytes32"}],"name":"reserve","outputs":[{"name":"success","type":"bool"}],"payable":true,"type":"function"}`
#[allow(dead_code)]
pub fn reserve(&self, _name: &util::H256) -> Result<bool, String>
{
let call = self.contract.function("reserve".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"bytes32"}],"name":"drop","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn drop(&self, _name: &util::H256) -> Result<bool, String>
{
let call = self.contract.function("drop".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"}],"name":"getAddress","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn get_address(&self, _name: &util::H256, _key: &str) -> Result<util::Address, String>
{
let call = self.contract.function("getAddress".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned()), ethabi::Token::String(_key.to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_address().ok_or("Invalid type returned")?; util::Address::from(r) }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_amount","type":"uint256"}],"name":"setFee","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn set_fee(&self, _amount: util::U256) -> Result<bool, String>
{
let call = self.contract.function("setFee".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Uint({ let mut r = [0u8; 32]; _amount.to_big_endian(&mut r); r })]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_to","type":"address"}],"name":"transfer","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn transfer(&self, _name: &util::H256, _to: &util::Address) -> Result<bool, String>
{
let call = self.contract.function("transfer".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned()), ethabi::Token::Address(_to.clone().0)]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":true,"inputs":[],"name":"owner","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn owner(&self) -> Result<util::Address, String>
{
let call = self.contract.function("owner".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_address().ok_or("Invalid type returned")?; util::Address::from(r) }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"}],"name":"getData","outputs":[{"name":"","type":"bytes32"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn get_data(&self, _name: &util::H256, _key: &str) -> Result<util::H256, String>
{
let call = self.contract.function("getData".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned()), ethabi::Token::String(_key.to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_fixed_bytes().ok_or("Invalid type returned")?; util::H256::from_slice(r.as_ref()) }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_name","type":"bytes32"}],"name":"reserved","outputs":[{"name":"reserved","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn reserved(&self, _name: &util::H256) -> Result<bool, String>
{
let call = self.contract.function("reserved".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[],"name":"drain","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn drain(&self) -> Result<bool, String>
{
let call = self.contract.function("drain".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"string"},{"name":"_who","type":"address"}],"name":"proposeReverse","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn propose_reverse(&self, _name: &str, _who: &util::Address) -> Result<bool, String>
{
let call = self.contract.function("proposeReverse".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::String(_name.to_owned()), ethabi::Token::Address(_who.clone().0)]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_name","type":"bytes32"}],"name":"hasReverse","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn has_reverse(&self, _name: &util::H256) -> Result<bool, String>
{
let call = self.contract.function("hasReverse".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"}],"name":"getUint","outputs":[{"name":"","type":"uint256"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn get_uint(&self, _name: &util::H256, _key: &str) -> Result<util::U256, String>
{
let call = self.contract.function("getUint".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned()), ethabi::Token::String(_key.to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_uint().ok_or("Invalid type returned")?; util::U256::from(r.as_ref()) }))
}
/// Auto-generated from: `{"constant":true,"inputs":[],"name":"fee","outputs":[{"name":"","type":"uint256"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn fee(&self) -> Result<util::U256, String>
{
let call = self.contract.function("fee".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_uint().ok_or("Invalid type returned")?; util::U256::from(r.as_ref()) }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_name","type":"bytes32"}],"name":"getOwner","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn get_owner(&self, _name: &util::H256) -> Result<util::Address, String>
{
let call = self.contract.function("getOwner".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_address().ok_or("Invalid type returned")?; util::Address::from(r) }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_name","type":"bytes32"}],"name":"getReverse","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn get_reverse(&self, _name: &util::H256) -> Result<util::Address, String>
{
let call = self.contract.function("getReverse".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_address().ok_or("Invalid type returned")?; util::Address::from(r) }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_data","type":"address"}],"name":"reverse","outputs":[{"name":"","type":"string"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn reverse(&self, _data: &util::Address) -> Result<String, String>
{
let call = self.contract.function("reverse".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_data.clone().0)]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_string().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"},{"name":"_value","type":"uint256"}],"name":"setUint","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn set_uint(&self, _name: &util::H256, _key: &str, _value: util::U256) -> Result<bool, String>
{
let call = self.contract.function("setUint".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned()), ethabi::Token::String(_key.to_owned()), ethabi::Token::Uint({ let mut r = [0u8; 32]; _value.to_big_endian(&mut r); r })]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"string"},{"name":"_who","type":"address"}],"name":"confirmReverseAs","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn confirm_reverse_as(&self, _name: &str, _who: &util::Address) -> Result<bool, String>
{
let call = self.contract.function("confirmReverseAs".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::String(_name.to_owned()), ethabi::Token::Address(_who.clone().0)]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":false,"inputs":[],"name":"removeReverse","outputs":[],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn remove_reverse(&self) -> Result<(), String>
{
let call = self.contract.function("removeReverse".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![]
).map_err(Self::as_string)?;
call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
Ok(())
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_name","type":"bytes32"},{"name":"_key","type":"string"},{"name":"_value","type":"address"}],"name":"setAddress","outputs":[{"name":"success","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn set_address(&self, _name: &util::H256, _key: &str, _value: &util::Address) -> Result<bool, String>
{
let call = self.contract.function("setAddress".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::FixedBytes(_name.as_ref().to_owned()), ethabi::Token::String(_key.to_owned()), ethabi::Token::Address(_value.clone().0)]
).map_err(Self::as_string)?;
let output = call.decode_output((self.do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
}

View File

@ -79,37 +79,39 @@
//! cargo build --release
//! ```
extern crate ethcore_io as io;
extern crate rustc_serialize;
extern crate crypto;
extern crate time;
extern crate env_logger;
extern crate num_cpus;
extern crate crossbeam;
extern crate ethjson;
extern crate bloomchain;
extern crate hyper;
extern crate ethash;
extern crate ethkey;
extern crate semver;
extern crate ethcore_ipc_nano as nanoipc;
extern crate ethcore_devtools as devtools;
extern crate rand;
extern crate bit_set;
extern crate rlp;
extern crate ethcore_bloom_journal as bloom_journal;
extern crate bloomchain;
extern crate bn;
extern crate byteorder;
extern crate transient_hashmap;
extern crate crossbeam;
extern crate crypto;
extern crate env_logger;
extern crate ethabi;
extern crate ethash;
extern crate ethcore_bloom_journal as bloom_journal;
extern crate ethcore_devtools as devtools;
extern crate ethcore_io as io;
extern crate ethcore_ipc_nano as nanoipc;
extern crate ethcore_logger;
extern crate ethcore_stratum;
extern crate ethjson;
extern crate ethkey;
extern crate futures;
extern crate hardware_wallet;
extern crate hyper;
extern crate itertools;
extern crate linked_hash_map;
extern crate lru_cache;
extern crate ethcore_stratum;
extern crate ethabi;
extern crate hardware_wallet;
extern crate stats;
extern crate ethcore_logger;
extern crate native_contracts;
extern crate num_cpus;
extern crate num;
extern crate bn;
extern crate itertools;
extern crate rand;
extern crate rlp;
extern crate rustc_serialize;
extern crate semver;
extern crate stats;
extern crate time;
extern crate transient_hashmap;
#[macro_use]
extern crate log;

View File

@ -14,9 +14,12 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use types::ids::BlockId;
use client::MiningBlockChainClient;
use transaction::SignedTransaction;
use types::ids::BlockId;
use futures::{future, Future};
use native_contracts::ServiceTransactionChecker as Contract;
use util::{U256, Uint, Mutex};
const SERVICE_TRANSACTION_CONTRACT_REGISTRY_NAME: &'static str = "service_transaction_checker";
@ -24,7 +27,7 @@ const SERVICE_TRANSACTION_CONTRACT_REGISTRY_NAME: &'static str = "service_transa
/// Service transactions checker.
#[derive(Default)]
pub struct ServiceTransactionChecker {
contract: Mutex<Option<provider::Contract>>,
contract: Mutex<Option<Contract>>,
}
impl ServiceTransactionChecker {
@ -36,7 +39,7 @@ impl ServiceTransactionChecker {
.and_then(|contract_addr| {
trace!(target: "txqueue", "Configuring for service transaction checker contract from {}", contract_addr);
Some(provider::Contract::new(contract_addr))
Some(Contract::new(contract_addr))
})
}
}
@ -46,168 +49,12 @@ impl ServiceTransactionChecker {
debug_assert_eq!(tx.gas_price, U256::zero());
if let Some(ref contract) = *self.contract.lock() {
let do_call = |a, d| client.call_contract(BlockId::Latest, a, d);
contract.certified(&do_call, &tx.sender())
contract.certified(
|addr, data| future::done(client.call_contract(BlockId::Latest, addr, data)),
tx.sender()
).wait()
} else {
Err("contract is not configured".to_owned())
}
}
}
mod provider {
// Autogenerated from JSON contract definition using Rust contract convertor.
// Command line: --jsonabi=SimpleCertifier.abi --explicit-do-call
#![allow(unused_imports)]
use std::string::String;
use std::result::Result;
use std::fmt;
use {util, ethabi};
use util::{Uint};
pub struct Contract {
contract: ethabi::Contract,
address: util::Address,
}
impl Contract {
pub fn new(address: util::Address) -> Self
{
Contract {
contract: ethabi::Contract::new(ethabi::Interface::load(b"[{\"constant\":false,\"inputs\":[{\"name\":\"_new\",\"type\":\"address\"}],\"name\":\"setOwner\",\"outputs\":[],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_who\",\"type\":\"address\"}],\"name\":\"certify\",\"outputs\":[],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_who\",\"type\":\"address\"},{\"name\":\"_field\",\"type\":\"string\"}],\"name\":\"getAddress\",\"outputs\":[{\"name\":\"\",\"type\":\"address\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_who\",\"type\":\"address\"}],\"name\":\"revoke\",\"outputs\":[],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[],\"name\":\"owner\",\"outputs\":[{\"name\":\"\",\"type\":\"address\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[],\"name\":\"delegate\",\"outputs\":[{\"name\":\"\",\"type\":\"address\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_who\",\"type\":\"address\"},{\"name\":\"_field\",\"type\":\"string\"}],\"name\":\"getUint\",\"outputs\":[{\"name\":\"\",\"type\":\"uint256\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":false,\"inputs\":[{\"name\":\"_new\",\"type\":\"address\"}],\"name\":\"setDelegate\",\"outputs\":[],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_who\",\"type\":\"address\"}],\"name\":\"certified\",\"outputs\":[{\"name\":\"\",\"type\":\"bool\"}],\"payable\":false,\"type\":\"function\"},{\"constant\":true,\"inputs\":[{\"name\":\"_who\",\"type\":\"address\"},{\"name\":\"_field\",\"type\":\"string\"}],\"name\":\"get\",\"outputs\":[{\"name\":\"\",\"type\":\"bytes32\"}],\"payable\":false,\"type\":\"function\"}]").expect("JSON is autogenerated; qed")),
address: address,
}
}
fn as_string<T: fmt::Debug>(e: T) -> String { format!("{:?}", e) }
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_new","type":"address"}],"name":"setOwner","outputs":[],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn set_owner<F>(&self, do_call: &F, _new: &util::Address) -> Result<(), String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("setOwner".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_new.clone().0)]
).map_err(Self::as_string)?;
call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
Ok(())
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_who","type":"address"}],"name":"certify","outputs":[],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn certify<F>(&self, do_call: &F, _who: &util::Address) -> Result<(), String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("certify".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_who.clone().0)]
).map_err(Self::as_string)?;
call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
Ok(())
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_who","type":"address"},{"name":"_field","type":"string"}],"name":"getAddress","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn get_address<F>(&self, do_call: &F, _who: &util::Address, _field: &str) -> Result<util::Address, String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("getAddress".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_who.clone().0), ethabi::Token::String(_field.to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_address().ok_or("Invalid type returned")?; util::Address::from(r) }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_who","type":"address"}],"name":"revoke","outputs":[],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn revoke<F>(&self, do_call: &F, _who: &util::Address) -> Result<(), String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("revoke".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_who.clone().0)]
).map_err(Self::as_string)?;
call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
Ok(())
}
/// Auto-generated from: `{"constant":true,"inputs":[],"name":"owner","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn owner<F>(&self, do_call: &F) -> Result<util::Address, String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("owner".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![]
).map_err(Self::as_string)?;
let output = call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_address().ok_or("Invalid type returned")?; util::Address::from(r) }))
}
/// Auto-generated from: `{"constant":true,"inputs":[],"name":"delegate","outputs":[{"name":"","type":"address"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn delegate<F>(&self, do_call: &F) -> Result<util::Address, String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("delegate".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![]
).map_err(Self::as_string)?;
let output = call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_address().ok_or("Invalid type returned")?; util::Address::from(r) }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_who","type":"address"},{"name":"_field","type":"string"}],"name":"getUint","outputs":[{"name":"","type":"uint256"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn get_uint<F>(&self, do_call: &F, _who: &util::Address, _field: &str) -> Result<util::U256, String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("getUint".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_who.clone().0), ethabi::Token::String(_field.to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_uint().ok_or("Invalid type returned")?; util::U256::from(r.as_ref()) }))
}
/// Auto-generated from: `{"constant":false,"inputs":[{"name":"_new","type":"address"}],"name":"setDelegate","outputs":[],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn set_delegate<F>(&self, do_call: &F, _new: &util::Address) -> Result<(), String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("setDelegate".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_new.clone().0)]
).map_err(Self::as_string)?;
call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
Ok(())
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_who","type":"address"}],"name":"certified","outputs":[{"name":"","type":"bool"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn certified<F>(&self, do_call: &F, _who: &util::Address) -> Result<bool, String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("certified".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_who.clone().0)]
).map_err(Self::as_string)?;
let output = call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_bool().ok_or("Invalid type returned")?; r }))
}
/// Auto-generated from: `{"constant":true,"inputs":[{"name":"_who","type":"address"},{"name":"_field","type":"string"}],"name":"get","outputs":[{"name":"","type":"bytes32"}],"payable":false,"type":"function"}`
#[allow(dead_code)]
pub fn get<F>(&self, do_call: &F, _who: &util::Address, _field: &str) -> Result<util::H256, String>
where F: Fn(util::Address, Vec<u8>) -> Result<Vec<u8>, String> + Send {
let call = self.contract.function("get".into()).map_err(Self::as_string)?;
let data = call.encode_call(
vec![ethabi::Token::Address(_who.clone().0), ethabi::Token::String(_field.to_owned())]
).map_err(Self::as_string)?;
let output = call.decode_output((do_call)(self.address.clone(), data)?).map_err(Self::as_string)?;
let mut result = output.into_iter().rev().collect::<Vec<_>>();
Ok(({ let r = result.pop().ok_or("Invalid return arity")?; let r = r.to_fixed_bytes().ok_or("Invalid type returned")?; util::H256::from_slice(r.as_ref()) }))
}
}
}

View File

@ -78,6 +78,12 @@ impl fmt::Display for Error {
}
}
impl Into<String> for Error {
fn into(self) -> String {
format!("{}", self)
}
}
impl From<SecpError> for Error {
fn from(e: SecpError) -> Self {
Error::Secp(e)

View File

@ -27,6 +27,7 @@ pub fn public_to_address(public: &Public) -> Address {
result
}
#[derive(Clone)]
/// secp256k1 key pair
pub struct KeyPair {
secret: Secret,

View File

@ -92,12 +92,13 @@ pub enum URLHintResult {
}
/// URLHint Contract interface
pub trait URLHint {
pub trait URLHint: Send + Sync {
/// Resolves given id to registrar entry.
fn resolve(&self, id: Bytes) -> Option<URLHintResult>;
}
/// `URLHintContract` API
#[derive(Clone)]
pub struct URLHintContract {
urlhint: Contract,
registrar: Contract,

View File

@ -32,12 +32,13 @@ use std::sync::Arc;
use std::net::{SocketAddr, IpAddr};
use error::ServerError;
use route::Out;
use http::hyper::server::{Listening, Handler, Request, Response};
use http::hyper::server::{Handler, Request, Response};
use http::hyper::net::HttpStream;
use http::hyper::header::{self, Vary, ContentLength, ContentType};
use http::hyper::{Next, Encoder, Decoder, Method, RequestUri, StatusCode};
use ethcore::client::BlockChainClient;
pub use http::hyper::server::Listening;
pub use http::{AccessControlAllowOrigin, Host, DomainsValidation};
/// Request/response handler

View File

@ -1,2 +1 @@
// test script 9
// trigger rebuild on master 15 Mar 2017, 11:19
// test script 10

View File

@ -167,6 +167,8 @@ usage! {
or |c: &Config| otry!(c.rpc).apis.as_ref().map(|vec| vec.join(",")),
flag_jsonrpc_hosts: String = "none",
or |c: &Config| otry!(c.rpc).hosts.as_ref().map(|vec| vec.join(",")),
flag_jsonrpc_threads: Option<usize> = None,
or |c: &Config| otry!(c.rpc).threads.map(Some),
// IPC
flag_no_ipc: bool = false,
@ -179,21 +181,8 @@ usage! {
// DAPPS
flag_no_dapps: bool = false,
or |c: &Config| otry!(c.dapps).disable.clone(),
flag_dapps_port: u16 = 8080u16,
or |c: &Config| otry!(c.dapps).port.clone(),
flag_dapps_interface: String = "local",
or |c: &Config| otry!(c.dapps).interface.clone(),
flag_dapps_hosts: String = "none",
or |c: &Config| otry!(c.dapps).hosts.as_ref().map(|vec| vec.join(",")),
flag_dapps_cors: Option<String> = None,
or |c: &Config| otry!(c.dapps).cors.clone().map(Some),
flag_dapps_path: String = "$BASE/dapps",
or |c: &Config| otry!(c.dapps).path.clone(),
flag_dapps_user: Option<String> = None,
or |c: &Config| otry!(c.dapps).user.clone().map(Some),
flag_dapps_pass: Option<String> = None,
or |c: &Config| otry!(c.dapps).pass.clone().map(Some),
flag_dapps_apis_all: bool = false, or |_| None,
// Secret Store
flag_no_secretstore: bool = false,
@ -333,6 +322,22 @@ usage! {
or |c: &Config| otry!(c.misc).log_file.clone().map(Some),
flag_no_color: bool = false,
or |c: &Config| otry!(c.misc).color.map(|c| !c).clone(),
// -- Legacy Options supported in configs
flag_dapps_port: Option<u16> = None,
or |c: &Config| otry!(c.dapps).port.clone().map(Some),
flag_dapps_interface: Option<String> = None,
or |c: &Config| otry!(c.dapps).interface.clone().map(Some),
flag_dapps_hosts: Option<String> = None,
or |c: &Config| otry!(c.dapps).hosts.as_ref().map(|vec| Some(vec.join(","))),
flag_dapps_cors: Option<String> = None,
or |c: &Config| otry!(c.dapps).cors.clone().map(Some),
flag_dapps_user: Option<String> = None,
or |c: &Config| otry!(c.dapps).user.clone().map(Some),
flag_dapps_pass: Option<String> = None,
or |c: &Config| otry!(c.dapps).pass.clone().map(Some),
flag_dapps_apis_all: Option<bool> = None, or |_| None,
}
{
// Values with optional default value.
@ -424,6 +429,7 @@ struct Rpc {
cors: Option<String>,
apis: Option<Vec<String>>,
hosts: Option<Vec<String>>,
threads: Option<usize>,
}
#[derive(Default, Debug, PartialEq, RustcDecodable)]
@ -679,6 +685,7 @@ mod tests {
flag_jsonrpc_cors: Some("null".into()),
flag_jsonrpc_apis: "web3,eth,net,parity,traces,rpc".into(),
flag_jsonrpc_hosts: "none".into(),
flag_jsonrpc_threads: None,
// IPC
flag_no_ipc: false,
@ -686,15 +693,8 @@ mod tests {
flag_ipc_apis: "web3,eth,net,parity,parity_accounts,personal,traces,rpc".into(),
// DAPPS
flag_no_dapps: false,
flag_dapps_port: 8080u16,
flag_dapps_interface: "local".into(),
flag_dapps_hosts: "none".into(),
flag_dapps_cors: None,
flag_dapps_path: "$HOME/.parity/dapps".into(),
flag_dapps_user: Some("test_user".into()),
flag_dapps_pass: Some("test_pass".into()),
flag_dapps_apis_all: false,
flag_no_dapps: false,
flag_no_secretstore: false,
flag_secretstore_port: 8082u16,
@ -799,6 +799,14 @@ mod tests {
flag_extradata: None,
flag_cache: None,
flag_warp: Some(true),
// Legacy-Dapps
flag_dapps_port: Some(8080),
flag_dapps_interface: Some("local".into()),
flag_dapps_hosts: Some("none".into()),
flag_dapps_cors: None,
flag_dapps_user: Some("test_user".into()),
flag_dapps_pass: Some("test_pass".into()),
flag_dapps_apis_all: None,
// -- Miscellaneous Options
flag_version: false,
@ -882,6 +890,7 @@ mod tests {
cors: None,
apis: None,
hosts: None,
threads: None,
}),
ipc: Some(Ipc {
disable: None,

View File

@ -74,7 +74,7 @@ Operating Options:
synchronize a bare minimum of data and fetch necessary
data on-demand from the network. Much lower in storage,
potentially higher in bandwidth. Has no effect with
subcommands (default: {flag_light})
subcommands (default: {flag_light}).
Account Options:
--unlock ACCOUNTS Unlock ACCOUNTS for the duration of the execution.
@ -155,6 +155,8 @@ API and Console Options:
is additional security against some attack
vectors. Special options: "all", "none",
(default: {flag_jsonrpc_hosts}).
--jsonrpc-threads THREADS Enables experimental faster implementation of JSON-RPC server.
Requires Dapps server to be disabled using --no-dapps. (default: {flag_jsonrpc_threads:?})
--no-ipc Disable JSON-RPC over IPC service. (default: {flag_no_ipc})
--ipc-path PATH Specify custom path for JSON-RPC over IPC service
@ -163,29 +165,8 @@ API and Console Options:
IPC (default: {flag_ipc_apis}).
--no-dapps Disable the Dapps server (e.g. status page). (default: {flag_no_dapps})
--dapps-port PORT Specify the port portion of the Dapps server
(default: {flag_dapps_port}).
--dapps-interface IP Specify the hostname portion of the Dapps
server, IP should be an interface's IP address,
or local (default: {flag_dapps_interface}).
--dapps-hosts HOSTS List of allowed Host header values. This option will
validate the Host header sent by the browser, it
is additional security against some attack
vectors. Special options: "all", "none",
(default: {flag_dapps_hosts}).
--dapps-cors URL Specify CORS headers for Dapps server APIs.
(default: {flag_dapps_cors:?})
--dapps-user USERNAME Specify username for Dapps server. It will be
used in HTTP Basic Authentication Scheme.
If --dapps-pass is not specified you will be
asked for password on startup. (default: {flag_dapps_user:?})
--dapps-pass PASSWORD Specify password for Dapps server. Use only in
conjunction with --dapps-user. (default: {flag_dapps_pass:?})
--dapps-path PATH Specify directory where dapps should be installed.
(default: {flag_dapps_path})
--dapps-apis-all Expose all possible RPC APIs on Dapps port.
WARNING: INSECURE. Used only for development.
(default: {flag_dapps_apis_all})
--ipfs-api Enable IPFS-compatible HTTP API. (default: {flag_ipfs_api})
--ipfs-api-port PORT Configure on which port the IPFS HTTP API should listen.
(default: {flag_ipfs_api_port})
@ -398,6 +379,13 @@ Legacy Options:
--jsonrpc-off Equivalent to --no-jsonrpc.
-w --webapp Does nothing; dapps server is on by default now.
--dapps-off Equivalent to --no-dapps.
--dapps-user USERNAME Dapps server authentication has been removed. (default: {flag_dapps_user:?})
--dapps-pass PASSWORD Dapps server authentication has been removed. (default: {flag_dapps_pass:?})
--dapps-apis-all Dapps server is merged with RPC server. Use --jsonrpc-apis. (default: {flag_dapps_apis_all:?})
--dapps-cors URL Dapps server is merged with RPC server. Use --jsonrpc-cors. (default: {flag_dapps_cors:?})
--dapps-hosts HOSTS Dapps server is merged with RPC server. Use --jsonrpc-hosts. (default: {flag_dapps_hosts:?})
--dapps-interface IP Dapps server is merged with RPC server. Use --jsonrpc-interface. (default: {flag_dapps_interface:?})
--dapps-port PORT Dapps server is merged with RPC server. Use --jsonrpc-port. (default: {flag_dapps_port:?})
--rpc Does nothing; JSON-RPC is on by default now.
--warp Does nothing; Warp sync is on by default. (default: {flag_warp})
--rpcaddr IP Equivalent to --jsonrpc-interface IP.

View File

@ -132,12 +132,17 @@ impl Configuration {
let warp_sync = !self.args.flag_no_warp && fat_db != Switch::On && tracing != Switch::On && pruning != Pruning::Specific(Algorithm::Archive);
let geth_compatibility = self.args.flag_geth;
let ui_address = self.ui_port().map(|port| (self.ui_interface(), port));
let dapps_conf = self.dapps_config();
let mut dapps_conf = self.dapps_config();
let ipfs_conf = self.ipfs_config();
let signer_conf = self.signer_config();
let secretstore_conf = self.secretstore_config();
let format = self.format()?;
if self.args.flag_jsonrpc_threads.is_some() && dapps_conf.enabled {
dapps_conf.enabled = false;
writeln!(&mut stderr(), "Warning: Disabling Dapps server because fast RPC server was enabled.").expect("Error writing to stderr.")
}
let cmd = if self.args.flag_version {
Cmd::Version
} else if self.args.cmd_signer {
@ -556,19 +561,12 @@ impl Configuration {
fn dapps_config(&self) -> DappsConfiguration {
DappsConfiguration {
enabled: self.dapps_enabled(),
interface: self.dapps_interface(),
port: self.args.flag_dapps_port,
hosts: self.dapps_hosts(),
cors: self.dapps_cors(),
user: self.args.flag_dapps_user.clone(),
pass: self.args.flag_dapps_pass.clone(),
dapps_path: PathBuf::from(self.directories().dapps),
extra_dapps: if self.args.cmd_dapp {
self.args.arg_path.iter().map(|path| PathBuf::from(path)).collect()
} else {
vec![]
},
all_apis: self.args.flag_dapps_apis_all,
}
}
@ -748,14 +746,10 @@ impl Configuration {
Self::cors(self.args.flag_ipfs_api_cors.as_ref())
}
fn dapps_cors(&self) -> Option<Vec<String>> {
Self::cors(self.args.flag_dapps_cors.as_ref())
}
fn hosts(hosts: &str) -> Option<Vec<String>> {
match hosts {
"none" => return Some(Vec::new()),
"all" => return None,
"*" | "all" | "any" => return None,
_ => {}
}
let hosts = hosts.split(',').map(Into::into).collect();
@ -766,10 +760,6 @@ impl Configuration {
Self::hosts(&self.args.flag_jsonrpc_hosts)
}
fn dapps_hosts(&self) -> Option<Vec<String>> {
Self::hosts(&self.args.flag_dapps_hosts)
}
fn ipfs_hosts(&self) -> Option<Vec<String>> {
Self::hosts(&self.args.flag_ipfs_api_hosts)
}
@ -795,12 +785,17 @@ impl Configuration {
fn http_config(&self) -> Result<HttpConfiguration, String> {
let conf = HttpConfiguration {
enabled: !self.args.flag_jsonrpc_off && !self.args.flag_no_jsonrpc,
enabled: self.rpc_enabled(),
interface: self.rpc_interface(),
port: self.args.flag_rpcport.unwrap_or(self.args.flag_jsonrpc_port),
apis: self.rpc_apis().parse()?,
hosts: self.rpc_hosts(),
cors: self.rpc_cors(),
threads: match self.args.flag_jsonrpc_threads {
Some(threads) if threads > 0 => Some(threads),
None => None,
_ => return Err("--jsonrpc-threads number needs to be positive.".into()),
}
};
Ok(conf)
@ -811,7 +806,7 @@ impl Configuration {
name: self.args.flag_identity.clone(),
chain: self.chain(),
network_port: self.args.flag_port,
rpc_enabled: !self.args.flag_jsonrpc_off && !self.args.flag_no_jsonrpc,
rpc_enabled: self.rpc_enabled(),
rpc_interface: self.args.flag_rpcaddr.clone().unwrap_or(self.args.flag_jsonrpc_interface.clone()),
rpc_port: self.args.flag_rpcport.unwrap_or(self.args.flag_jsonrpc_port),
}
@ -918,13 +913,6 @@ impl Configuration {
Self::interface(&self.network_settings().rpc_interface)
}
fn dapps_interface(&self) -> String {
match self.args.flag_dapps_interface.as_str() {
"local" => "127.0.0.1",
x => x,
}.into()
}
fn ipfs_interface(&self) -> String {
Self::interface(&self.args.flag_ipfs_api_interface)
}
@ -940,8 +928,12 @@ impl Configuration {
Self::interface(&self.args.flag_stratum_interface)
}
fn rpc_enabled(&self) -> bool {
!self.args.flag_jsonrpc_off && !self.args.flag_no_jsonrpc
}
fn dapps_enabled(&self) -> bool {
!self.args.flag_dapps_off && !self.args.flag_no_dapps && cfg!(feature = "dapps")
!self.args.flag_dapps_off && !self.args.flag_no_dapps && self.rpc_enabled() && cfg!(feature = "dapps")
}
fn secretstore_enabled(&self) -> bool {
@ -1321,23 +1313,6 @@ mod tests {
assert_eq!(conf3.rpc_hosts(), Some(vec!["ethcore.io".into(), "something.io".into()]));
}
#[test]
fn should_parse_dapps_hosts() {
// given
// when
let conf0 = parse(&["parity"]);
let conf1 = parse(&["parity", "--dapps-hosts", "none"]);
let conf2 = parse(&["parity", "--dapps-hosts", "all"]);
let conf3 = parse(&["parity", "--dapps-hosts", "ethcore.io,something.io"]);
// then
assert_eq!(conf0.dapps_hosts(), Some(Vec::new()));
assert_eq!(conf1.dapps_hosts(), Some(Vec::new()));
assert_eq!(conf2.dapps_hosts(), None);
assert_eq!(conf3.dapps_hosts(), Some(vec!["ethcore.io".into(), "something.io".into()]));
}
#[test]
fn should_parse_ipfs_hosts() {
// given

View File

@ -20,26 +20,18 @@ use std::sync::Arc;
use dir::default_data_path;
use ethcore::client::{Client, BlockChainClient, BlockId};
use ethcore::transaction::{Transaction, Action};
use ethcore_rpc::informant::RpcStats;
use hash_fetch::fetch::Client as FetchClient;
use hash_fetch::urlhint::ContractClient;
use helpers::replace_home;
use rpc_apis::{self, SignerService};
use rpc_apis::SignerService;
use parity_reactor;
use util::{Bytes, Address, U256};
#[derive(Debug, PartialEq, Clone)]
pub struct Configuration {
pub enabled: bool,
pub interface: String,
pub port: u16,
pub hosts: Option<Vec<String>>,
pub cors: Option<Vec<String>>,
pub user: Option<String>,
pub pass: Option<String>,
pub dapps_path: PathBuf,
pub extra_dapps: Vec<PathBuf>,
pub all_apis: bool,
}
impl Default for Configuration {
@ -47,15 +39,8 @@ impl Default for Configuration {
let data_dir = default_data_path();
Configuration {
enabled: true,
interface: "127.0.0.1".into(),
port: 8080,
hosts: Some(Vec::new()),
cors: None,
user: None,
pass: None,
dapps_path: replace_home(&data_dir, "$BASE/dapps").into(),
extra_dapps: vec![],
all_apis: false,
}
}
}
@ -96,70 +81,52 @@ impl ContractClient for FullRegistrar {
// TODO: light client implementation forwarding to OnDemand and waiting for future
// to resolve.
pub struct Dependencies<D: rpc_apis::Dependencies> {
pub apis: Arc<D>,
pub sync_status: Arc<::ethcore_dapps::SyncStatus>,
pub struct Dependencies {
pub sync_status: Arc<::parity_dapps::SyncStatus>,
pub contract_client: Arc<ContractClient>,
pub remote: parity_reactor::TokioRemote,
pub fetch: FetchClient,
pub signer: Arc<SignerService>,
pub stats: Arc<RpcStats>,
}
pub fn new<D>(configuration: Configuration, deps: Dependencies<D>) -> Result<Option<WebappServer>, String>
where D: rpc_apis::Dependencies
pub fn new(configuration: Configuration, deps: Dependencies)
-> Result<Option<Middleware>, String>
{
if !configuration.enabled {
return Ok(None);
}
let url = format!("{}:{}", configuration.interface, configuration.port);
let addr = url.parse().map_err(|_| format!("Invalid Webapps listen host/port given: {}", url))?;
let auth = configuration.user.as_ref().map(|username| {
let password = configuration.pass.as_ref().map_or_else(|| {
use rpassword::read_password;
println!("Type password for WebApps server (user: {}): ", username);
let pass = read_password().unwrap();
println!("OK, got it. Starting server...");
pass
}, |pass| pass.to_owned());
(username.to_owned(), password)
});
Ok(Some(setup_dapps_server(
dapps_middleware(
deps,
configuration.dapps_path,
configuration.extra_dapps,
&addr,
configuration.hosts,
configuration.cors,
auth,
configuration.all_apis,
)?))
).map(Some)
}
pub use self::server::WebappServer;
pub use self::server::setup_dapps_server;
pub use self::server::Middleware;
pub use self::server::dapps_middleware;
#[cfg(not(feature = "dapps"))]
mod server {
use super::Dependencies;
use std::net::SocketAddr;
use std::path::PathBuf;
use ethcore_rpc::{hyper, RequestMiddleware, RequestMiddlewareAction};
pub struct WebappServer;
pub fn setup_dapps_server(
pub struct Middleware;
impl RequestMiddleware for Middleware {
fn on_request(
&self, req: &hyper::server::Request<hyper::net::HttpStream>, control: &hyper::Control
) -> RequestMiddlewareAction {
unreachable!()
}
}
pub fn dapps_middleware(
_deps: Dependencies,
_dapps_path: PathBuf,
_extra_dapps: Vec<PathBuf>,
_url: &SocketAddr,
_allowed_hosts: Option<Vec<String>>,
_cors: Option<Vec<String>>,
_auth: Option<(String, String)>,
_all_apis: bool,
) -> Result<WebappServer, String> {
) -> Result<Middleware, String> {
Err("Your Parity version has been compiled without WebApps support.".into())
}
}
@ -169,70 +136,31 @@ mod server {
use super::Dependencies;
use std::path::PathBuf;
use std::sync::Arc;
use std::net::SocketAddr;
use std::io;
use ansi_term::Colour;
use ethcore_dapps::{AccessControlAllowOrigin, Host};
use hash_fetch::fetch::Client as FetchClient;
use parity_dapps;
use parity_reactor;
use rpc_apis;
pub use ethcore_dapps::Server as WebappServer;
pub type Middleware = parity_dapps::Middleware<FetchClient>;
pub fn setup_dapps_server<D: rpc_apis::Dependencies>(
deps: Dependencies<D>,
pub fn dapps_middleware(
deps: Dependencies,
dapps_path: PathBuf,
extra_dapps: Vec<PathBuf>,
url: &SocketAddr,
allowed_hosts: Option<Vec<String>>,
cors: Option<Vec<String>>,
auth: Option<(String, String)>,
all_apis: bool,
) -> Result<WebappServer, String> {
use ethcore_dapps as dapps;
let server = dapps::ServerBuilder::new(
&dapps_path,
deps.contract_client,
parity_reactor::Remote::new(deps.remote.clone()),
);
let allowed_hosts: Option<Vec<_>> = allowed_hosts.map(|hosts| hosts.into_iter().map(Host::from).collect());
let cors: Option<Vec<_>> = cors.map(|cors| cors.into_iter().map(AccessControlAllowOrigin::from).collect());
) -> Result<Middleware, String> {
let signer = deps.signer.clone();
let server = server
.fetch(deps.fetch.clone())
.sync_status(deps.sync_status)
.web_proxy_tokens(Arc::new(move |token| signer.is_valid_web_proxy_access_token(&token)))
.extra_dapps(&extra_dapps)
.signer_address(deps.signer.address())
.allowed_hosts(allowed_hosts.into())
.extra_cors_headers(cors.into());
let parity_remote = parity_reactor::Remote::new(deps.remote.clone());
let web_proxy_tokens = Arc::new(move |token| signer.is_valid_web_proxy_access_token(&token));
let api_set = if all_apis {
warn!("{}", Colour::Red.bold().paint("*** INSECURE *** Running Dapps with all APIs exposed."));
info!("If you do not intend this, exit now.");
rpc_apis::ApiSet::SafeContext
} else {
rpc_apis::ApiSet::UnsafeContext
};
let apis = rpc_apis::setup_rpc(deps.stats, &*deps.apis, api_set);
let start_result = match auth {
None => {
server.start_unsecured_http(url, apis, deps.remote)
},
Some((username, password)) => {
server.start_basic_auth_http(url, &username, &password, apis, deps.remote)
},
};
match start_result {
Err(dapps::ServerError::IoError(err)) => match err.kind() {
io::ErrorKind::AddrInUse => Err(format!("WebApps address {} is already in use, make sure that another instance of an Ethereum client is not running or change the address using the --dapps-port and --dapps-interface options.", url)),
_ => Err(format!("WebApps io error: {}", err)),
},
Err(e) => Err(format!("WebApps error: {:?}", e)),
Ok(server) => Ok(server),
}
Ok(parity_dapps::Middleware::new(
parity_remote,
deps.signer.address(),
dapps_path,
extra_dapps,
deps.contract_client,
deps.sync_status,
web_proxy_tokens,
deps.fetch.clone(),
))
}
}

View File

@ -21,94 +21,89 @@ use cli::Args;
pub enum Deprecated {
DoesNothing(&'static str),
Replaced(&'static str, &'static str),
Removed(&'static str),
}
impl fmt::Display for Deprecated {
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
match *self {
Deprecated::DoesNothing(s) => write!(f, "Option '{}' does nothing. It's on by default", s),
Deprecated::Replaced(old, new) => write!(f, "Option '{}' is deprecated. Please use '{}' instead", old, new),
Deprecated::DoesNothing(s) => write!(f, "Option '{}' does nothing. It's on by default.", s),
Deprecated::Replaced(old, new) => write!(f, "Option '{}' is deprecated. Please use '{}' instead.", old, new),
Deprecated::Removed(s) => write!(f, "Option '{}' has been removed and is no longer supported.", s)
}
}
}
impl Deprecated {
fn jsonrpc() -> Self {
Deprecated::DoesNothing("--jsonrpc")
}
fn rpc() -> Self {
Deprecated::DoesNothing("--rpc")
}
fn jsonrpc_off() -> Self {
Deprecated::Replaced("--jsonrpc-off", "--no-jsonrpc")
}
fn webapp() -> Self {
Deprecated::DoesNothing("--webapp")
}
fn dapps_off() -> Self {
Deprecated::Replaced("--dapps-off", "--no-dapps")
}
fn ipcdisable() -> Self {
Deprecated::Replaced("--ipcdisable", "--no-ipc")
}
fn ipc_off() -> Self {
Deprecated::Replaced("--ipc-off", "--no-ipc")
}
fn etherbase() -> Self {
Deprecated::Replaced("--etherbase", "--author")
}
fn extradata() -> Self {
Deprecated::Replaced("--extradata", "--extra-data")
}
}
pub fn find_deprecated(args: &Args) -> Vec<Deprecated> {
let mut result = vec![];
if args.flag_jsonrpc {
result.push(Deprecated::jsonrpc());
result.push(Deprecated::DoesNothing("--jsonrpc"));
}
if args.flag_rpc {
result.push(Deprecated::rpc());
result.push(Deprecated::DoesNothing("--rpc"));
}
if args.flag_jsonrpc_off {
result.push(Deprecated::jsonrpc_off());
result.push(Deprecated::Replaced("--jsonrpc-off", "--no-jsonrpc"));
}
if args.flag_webapp {
result.push(Deprecated::webapp())
result.push(Deprecated::DoesNothing("--webapp"));
}
if args.flag_dapps_off {
result.push(Deprecated::dapps_off());
result.push(Deprecated::Replaced("--dapps-off", "--no-dapps"));
}
if args.flag_ipcdisable {
result.push(Deprecated::ipcdisable());
result.push(Deprecated::Replaced("--ipcdisable", "--no-ipc"));
}
if args.flag_ipc_off {
result.push(Deprecated::ipc_off());
result.push(Deprecated::Replaced("--ipc-off", "--no-ipc"));
}
if args.flag_etherbase.is_some() {
result.push(Deprecated::etherbase());
result.push(Deprecated::Replaced("--etherbase", "--author"));
}
if args.flag_extradata.is_some() {
result.push(Deprecated::extradata());
result.push(Deprecated::Replaced("--extradata", "--extra-data"));
}
// Removed in 1.7
if args.flag_dapps_port.is_some() {
result.push(Deprecated::Replaced("--dapps-port", "--jsonrpc-port"));
}
if args.flag_dapps_interface.is_some() {
result.push(Deprecated::Replaced("--dapps-interface", "--jsonrpc-interface"));
}
if args.flag_dapps_hosts.is_some() {
result.push(Deprecated::Replaced("--dapps-hosts", "--jsonrpc-hosts"));
}
if args.flag_dapps_cors.is_some() {
result.push(Deprecated::Replaced("--dapps-cors", "--jsonrpc-cors"));
}
if args.flag_dapps_user.is_some() {
result.push(Deprecated::Removed("--dapps-user"));
}
if args.flag_dapps_pass.is_some() {
result.push(Deprecated::Removed("--dapps-pass"));
}
if args.flag_dapps_apis_all.is_some() {
result.push(Deprecated::Replaced("--dapps-apis-all", "--jsonrpc-apis"));
}
// Removed in 1.8
result
}
@ -131,17 +126,31 @@ mod tests {
args.flag_ipc_off = true;
args.flag_etherbase = Some(Default::default());
args.flag_extradata = Some(Default::default());
args.flag_dapps_port = Some(Default::default());
args.flag_dapps_interface = Some(Default::default());
args.flag_dapps_hosts = Some(Default::default());
args.flag_dapps_cors = Some(Default::default());
args.flag_dapps_user = Some(Default::default());
args.flag_dapps_pass = Some(Default::default());
args.flag_dapps_apis_all = Some(Default::default());
args
}), vec![
Deprecated::jsonrpc(),
Deprecated::rpc(),
Deprecated::jsonrpc_off(),
Deprecated::webapp(),
Deprecated::dapps_off(),
Deprecated::ipcdisable(),
Deprecated::ipc_off(),
Deprecated::etherbase(),
Deprecated::extradata(),
Deprecated::DoesNothing("--jsonrpc"),
Deprecated::DoesNothing("--rpc"),
Deprecated::Replaced("--jsonrpc-off", "--no-jsonrpc"),
Deprecated::DoesNothing("--webapp"),
Deprecated::Replaced("--dapps-off", "--no-dapps"),
Deprecated::Replaced("--ipcdisable", "--no-ipc"),
Deprecated::Replaced("--ipc-off", "--no-ipc"),
Deprecated::Replaced("--etherbase", "--author"),
Deprecated::Replaced("--extradata", "--extra-data"),
Deprecated::Replaced("--dapps-port", "--jsonrpc-port"),
Deprecated::Replaced("--dapps-interface", "--jsonrpc-interface"),
Deprecated::Replaced("--dapps-hosts", "--jsonrpc-hosts"),
Deprecated::Replaced("--dapps-cors", "--jsonrpc-cors"),
Deprecated::Removed("--dapps-user"),
Deprecated::Removed("--dapps-pass"),
Deprecated::Replaced("--dapps-apis-all", "--jsonrpc-apis"),
]);
}
}

View File

@ -15,10 +15,9 @@
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::sync::Arc;
use parity_ipfs_api::{self, AccessControlAllowOrigin, Host};
use parity_ipfs_api::{self, AccessControlAllowOrigin, Host, Listening};
use parity_ipfs_api::error::ServerError;
use ethcore::client::BlockChainClient;
use hyper::server::Listening;
#[derive(Debug, PartialEq, Clone)]
pub struct Configuration {

View File

@ -29,7 +29,6 @@ extern crate docopt;
extern crate env_logger;
extern crate fdlimit;
extern crate futures;
extern crate hyper;
extern crate isatty;
extern crate jsonrpc_core;
extern crate num_cpus;
@ -55,6 +54,7 @@ extern crate ethcore_logger;
extern crate ethcore_rpc;
extern crate ethcore_signer;
extern crate ethcore_util as util;
extern crate ethkey;
extern crate ethsync;
extern crate parity_hash_fetch as hash_fetch;
extern crate parity_ipfs_api;
@ -74,7 +74,11 @@ extern crate ethcore_stratum;
extern crate ethcore_secretstore;
#[cfg(feature = "dapps")]
extern crate ethcore_dapps;
extern crate parity_dapps;
#[cfg(test)]
#[macro_use]
extern crate pretty_assertions;
#[cfg(windows)] extern crate ws2_32;
#[cfg(windows)] extern crate winapi;

View File

@ -14,24 +14,21 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::fmt;
use std::{io, fmt};
use std::sync::Arc;
use std::net::SocketAddr;
use std::io;
use dapps;
use dir::default_data_path;
use ethcore_rpc::{self as rpc, HttpServerError, Metadata, Origin, AccessControlAllowOrigin, Host};
use ethcore_rpc::informant::{RpcStats, Middleware};
use ethcore_rpc::{self as rpc, HttpServerError, Metadata, Origin, AccessControlAllowOrigin, Host};
use helpers::parity_ipc_path;
use hyper;
use jsonrpc_core::MetaIoHandler;
use rpc_apis;
use rpc_apis::ApiSet;
use parity_reactor::TokioRemote;
use rpc_apis::{self, ApiSet};
pub use ethcore_rpc::{IpcServer, HttpServer};
pub use ethcore_rpc::{IpcServer, HttpServer, RequestMiddleware};
#[derive(Debug, PartialEq)]
#[derive(Debug, Clone, PartialEq)]
pub struct HttpConfiguration {
pub enabled: bool,
pub interface: String,
@ -39,6 +36,7 @@ pub struct HttpConfiguration {
pub apis: ApiSet,
pub cors: Option<Vec<String>>,
pub hosts: Option<Vec<String>>,
pub threads: Option<usize>,
}
impl Default for HttpConfiguration {
@ -50,6 +48,7 @@ impl Default for HttpConfiguration {
apis: ApiSet::UnsafeContext,
cors: None,
hosts: Some(Vec::new()),
threads: None,
}
}
}
@ -89,13 +88,17 @@ pub struct Dependencies<D: rpc_apis::Dependencies> {
}
pub struct RpcExtractor;
impl rpc::HttpMetaExtractor<Metadata> for RpcExtractor {
fn read_metadata(&self, req: &hyper::server::Request<hyper::net::HttpStream>) -> Metadata {
let origin = req.headers().get::<hyper::header::Origin>()
.map(|origin| format!("{}://{}", origin.scheme, origin.host))
.unwrap_or_else(|| "unknown".into());
impl rpc::HttpMetaExtractor for RpcExtractor {
type Metadata = Metadata;
fn read_metadata(&self, origin: String, dapps_origin: Option<String>) -> Metadata {
let mut metadata = Metadata::default();
metadata.origin = Origin::Rpc(origin);
metadata.origin = match (origin.as_str(), dapps_origin) {
("null", Some(dapp)) => Origin::Dapps(dapp.into()),
_ => Origin::Rpc(origin),
};
metadata
}
}
@ -109,56 +112,101 @@ impl rpc::IpcMetaExtractor<Metadata> for RpcExtractor {
}
}
pub fn new_http<D>(conf: HttpConfiguration, deps: &Dependencies<D>) -> Result<Option<HttpServer>, String>
where D: rpc_apis::Dependencies
{
if !conf.enabled {
return Ok(None);
}
let url = format!("{}:{}", conf.interface, conf.port);
let addr = url.parse().map_err(|_| format!("Invalid JSONRPC listen host/port given: {}", url))?;
Ok(Some(setup_http_rpc_server(deps, &addr, conf.cors, conf.hosts, conf.apis)?))
}
fn setup_apis<D>(apis: ApiSet, deps: &Dependencies<D>) -> MetaIoHandler<Metadata, Middleware<D::Notifier>>
where D: rpc_apis::Dependencies
{
rpc_apis::setup_rpc(deps.stats.clone(), &*deps.apis, apis)
}
pub fn setup_http_rpc_server<D: rpc_apis::Dependencies>(
dependencies: &Dependencies<D>,
url: &SocketAddr,
cors_domains: Option<Vec<String>>,
allowed_hosts: Option<Vec<String>>,
apis: ApiSet
) -> Result<HttpServer, String> {
let handler = setup_apis(apis, dependencies);
let remote = dependencies.remote.clone();
let cors_domains: Option<Vec<_>> = cors_domains.map(|domains| domains.into_iter().map(AccessControlAllowOrigin::from).collect());
let allowed_hosts: Option<Vec<_>> = allowed_hosts.map(|hosts| hosts.into_iter().map(Host::from).collect());
let start_result = rpc::start_http(url, cors_domains.into(), allowed_hosts.into(), handler, remote, RpcExtractor);
pub fn new_http<D: rpc_apis::Dependencies>(
conf: HttpConfiguration,
deps: &Dependencies<D>,
middleware: Option<dapps::Middleware>
) -> Result<Option<HttpServer>, String> {
if !conf.enabled {
return Ok(None);
}
let url = format!("{}:{}", conf.interface, conf.port);
let addr = url.parse().map_err(|_| format!("Invalid JSONRPC listen host/port given: {}", url))?;
let handler = setup_apis(conf.apis, deps);
let remote = deps.remote.clone();
let cors_domains: Option<Vec<_>> = conf.cors.map(|domains| domains.into_iter().map(AccessControlAllowOrigin::from).collect());
let allowed_hosts: Option<Vec<_>> = conf.hosts.map(|hosts| hosts.into_iter().map(Host::from).collect());
let start_result = rpc::start_http(
&addr,
cors_domains.into(),
allowed_hosts.into(),
handler,
remote,
RpcExtractor,
match (conf.threads, middleware) {
(Some(threads), None) => rpc::HttpSettings::Threads(threads),
(None, middleware) => rpc::HttpSettings::Dapps(middleware),
(Some(_), Some(_)) => {
return Err("Dapps and fast multi-threaded RPC server cannot be enabled at the same time.".into())
},
}
);
match start_result {
Err(HttpServerError::IoError(err)) => match err.kind() {
io::ErrorKind::AddrInUse => Err(format!("RPC address {} is already in use, make sure that another instance of an Ethereum client is not running or change the address using the --jsonrpc-port and --jsonrpc-interface options.", url)),
Ok(server) => Ok(Some(server)),
Err(HttpServerError::Io(err)) => match err.kind() {
io::ErrorKind::AddrInUse => Err(
format!("RPC address {} is already in use, make sure that another instance of an Ethereum client is not running or change the address using the --jsonrpc-port and --jsonrpc-interface options.", url)
),
_ => Err(format!("RPC io error: {}", err)),
},
Err(e) => Err(format!("RPC error: {:?}", e)),
Ok(server) => Ok(server),
}
}
pub fn new_ipc<D: rpc_apis::Dependencies>(conf: IpcConfiguration, deps: &Dependencies<D>) -> Result<Option<IpcServer>, String> {
if !conf.enabled { return Ok(None); }
Ok(Some(setup_ipc_rpc_server(deps, &conf.socket_addr, conf.apis)?))
pub fn new_ipc<D: rpc_apis::Dependencies>(
conf: IpcConfiguration,
dependencies: &Dependencies<D>
) -> Result<Option<IpcServer>, String> {
if !conf.enabled {
return Ok(None);
}
pub fn setup_ipc_rpc_server<D: rpc_apis::Dependencies>(dependencies: &Dependencies<D>, addr: &str, apis: ApiSet) -> Result<IpcServer, String> {
let handler = setup_apis(apis, dependencies);
let handler = setup_apis(conf.apis, dependencies);
let remote = dependencies.remote.clone();
match rpc::start_ipc(addr, handler, remote, RpcExtractor) {
match rpc::start_ipc(&conf.socket_addr, handler, remote, RpcExtractor) {
Ok(server) => Ok(Some(server)),
Err(io_error) => Err(format!("RPC io error: {}", io_error)),
Ok(server) => Ok(server)
}
}
#[cfg(test)]
mod tests {
use super::RpcExtractor;
use ethcore_rpc::{HttpMetaExtractor, Origin};
#[test]
fn should_extract_rpc_origin() {
// given
let extractor = RpcExtractor;
// when
let meta = extractor.read_metadata("http://parity.io".into(), None);
let meta1 = extractor.read_metadata("http://parity.io".into(), Some("ignored".into()));
// then
assert_eq!(meta.origin, Origin::Rpc("http://parity.io".into()));
assert_eq!(meta1.origin, Origin::Rpc("http://parity.io".into()));
}
#[test]
fn should_dapps_origin() {
// given
let extractor = RpcExtractor;
let dapp = "https://wallet.ethereum.org".to_owned();
// when
let meta = extractor.read_metadata("null".into(), Some(dapp.clone()));
// then
assert_eq!(meta.origin, Origin::Dapps(dapp.into()));
}
}

View File

@ -83,7 +83,7 @@ impl FromStr for Api {
}
}
#[derive(Debug)]
#[derive(Debug, Clone)]
pub enum ApiSet {
SafeContext,
UnsafeContext,

View File

@ -37,7 +37,6 @@ use updater::{UpdatePolicy, Updater};
use parity_reactor::EventLoop;
use hash_fetch::fetch::{Fetch, Client as FetchClient};
use rpc::{HttpConfiguration, IpcConfiguration};
use params::{
SpecType, Pruning, AccountsConfig, GasPricerConfig, MinerExtras, Switch,
tracing_switch_to_bool, fatdb_switch_to_bool, mode_switch_to_bool
@ -81,8 +80,8 @@ pub struct RunCmd {
pub daemon: Option<String>,
pub logger_config: LogConfig,
pub miner_options: MinerOptions,
pub http_conf: HttpConfiguration,
pub ipc_conf: IpcConfiguration,
pub http_conf: rpc::HttpConfiguration,
pub ipc_conf: rpc::IpcConfiguration,
pub net_conf: NetworkConfiguration,
pub network_id: Option<u64>,
pub warp_sync: bool,
@ -117,11 +116,7 @@ pub struct RunCmd {
pub light: bool,
}
pub fn open_ui(dapps_conf: &dapps::Configuration, signer_conf: &signer::Configuration) -> Result<(), String> {
if !dapps_conf.enabled {
return Err("Cannot use UI command with Dapps turned off.".into())
}
pub fn open_ui(signer_conf: &signer::Configuration) -> Result<(), String> {
if !signer_conf.enabled {
return Err("Cannot use UI command with UI turned off.".into())
}
@ -134,12 +129,12 @@ pub fn open_ui(dapps_conf: &dapps::Configuration, signer_conf: &signer::Configur
Ok(())
}
pub fn open_dapp(dapps_conf: &dapps::Configuration, dapp: &str) -> Result<(), String> {
pub fn open_dapp(dapps_conf: &dapps::Configuration, rpc_conf: &rpc::HttpConfiguration, dapp: &str) -> Result<(), String> {
if !dapps_conf.enabled {
return Err("Cannot use DAPP command with Dapps turned off.".into())
}
let url = format!("http://{}:{}/{}/", dapps_conf.interface, dapps_conf.port, dapp);
let url = format!("http://{}:{}/{}/", rpc_conf.interface, rpc_conf.port, dapp);
url::open(&url);
Ok(())
}
@ -282,11 +277,11 @@ fn execute_light(cmd: RunCmd, can_restart: bool, logger: Arc<RotatingLogger>) ->
cache: cache,
transaction_queue: txq,
dapps_interface: match cmd.dapps_conf.enabled {
true => Some(cmd.dapps_conf.interface.clone()),
true => Some(cmd.http_conf.interface.clone()),
false => None,
},
dapps_port: match cmd.dapps_conf.enabled {
true => Some(cmd.dapps_conf.port),
true => Some(cmd.http_conf.port),
false => None,
},
fetch: fetch,
@ -300,7 +295,7 @@ fn execute_light(cmd: RunCmd, can_restart: bool, logger: Arc<RotatingLogger>) ->
};
// start rpc servers
let _http_server = rpc::new_http(cmd.http_conf, &dependencies)?;
let _http_server = rpc::new_http(cmd.http_conf, &dependencies, None)?;
let _ipc_server = rpc::new_ipc(cmd.ipc_conf, &dependencies)?;
// the signer server
@ -329,9 +324,9 @@ fn execute_light(cmd: RunCmd, can_restart: bool, logger: Arc<RotatingLogger>) ->
pub fn execute(cmd: RunCmd, can_restart: bool, logger: Arc<RotatingLogger>) -> Result<(bool, Option<String>), String> {
if cmd.ui && cmd.dapps_conf.enabled {
// Check if Parity is already running
let addr = format!("{}:{}", cmd.dapps_conf.interface, cmd.dapps_conf.port);
let addr = format!("{}:{}", cmd.signer_conf.interface, cmd.signer_conf.port);
if !TcpListener::bind(&addr as &str).is_ok() {
return open_ui(&cmd.dapps_conf, &cmd.signer_conf).map(|_| (false, None));
return open_ui(&cmd.signer_conf).map(|_| (false, None));
}
}
@ -609,11 +604,11 @@ pub fn execute(cmd: RunCmd, can_restart: bool, logger: Arc<RotatingLogger>) -> R
updater: updater.clone(),
geth_compatibility: cmd.geth_compatibility,
dapps_interface: match cmd.dapps_conf.enabled {
true => Some(cmd.dapps_conf.interface.clone()),
true => Some(cmd.http_conf.interface.clone()),
false => None,
},
dapps_port: match cmd.dapps_conf.enabled {
true => Some(cmd.dapps_conf.port),
true => Some(cmd.http_conf.port),
false => None,
},
fetch: fetch.clone(),
@ -625,26 +620,24 @@ pub fn execute(cmd: RunCmd, can_restart: bool, logger: Arc<RotatingLogger>) -> R
stats: rpc_stats.clone(),
};
// start rpc servers
let http_server = rpc::new_http(cmd.http_conf, &dependencies)?;
let ipc_server = rpc::new_ipc(cmd.ipc_conf, &dependencies)?;
// the dapps server
let dapps_deps = {
let (sync, client) = (sync_provider.clone(), client.clone());
let contract_client = Arc::new(::dapps::FullRegistrar { client: client.clone() });
dapps::Dependencies {
apis: deps_for_rpc_apis.clone(),
sync_status: Arc::new(move || is_major_importing(Some(sync.status().state), client.queue_info())),
contract_client: contract_client,
remote: event_loop.raw_remote(),
fetch: fetch.clone(),
signer: deps_for_rpc_apis.signer_service.clone(),
stats: rpc_stats.clone(),
}
};
let dapps_server = dapps::new(cmd.dapps_conf.clone(), dapps_deps)?;
let dapps_middleware = dapps::new(cmd.dapps_conf.clone(), dapps_deps)?;
// start rpc servers
let http_server = rpc::new_http(cmd.http_conf.clone(), &dependencies, dapps_middleware)?;
let ipc_server = rpc::new_ipc(cmd.ipc_conf, &dependencies)?;
// the signer server
let signer_deps = signer::Dependencies {
@ -710,18 +703,18 @@ pub fn execute(cmd: RunCmd, can_restart: bool, logger: Arc<RotatingLogger>) -> R
// start ui
if cmd.ui {
open_ui(&cmd.dapps_conf, &cmd.signer_conf)?;
open_ui(&cmd.signer_conf)?;
}
if let Some(dapp) = cmd.dapp {
open_dapp(&cmd.dapps_conf, &dapp)?;
open_dapp(&cmd.dapps_conf, &cmd.http_conf, &dapp)?;
}
// Handle exit
let restart = wait_for_exit(panic_handler, Some(updater), Some(client), can_restart);
// drop this stuff as soon as exit detected.
drop((http_server, ipc_server, dapps_server, signer_server, secretstore_key_server, ipfs_server, event_loop));
drop((http_server, ipc_server, signer_server, secretstore_key_server, ipfs_server, event_loop));
info!("Finishing work, please wait...");

View File

@ -53,6 +53,7 @@ mod server {
#[cfg(feature="secretstore")]
mod server {
use ethkey;
use ethcore_secretstore;
use super::{Configuration, Dependencies};
@ -64,10 +65,35 @@ mod server {
impl KeyServer {
/// Create new key server
pub fn new(conf: Configuration, _deps: Dependencies) -> Result<Self, String> {
let key_pairs = vec![
ethkey::KeyPair::from_secret("6c26a76e9b31048d170873a791401c7e799a11f0cefc0171cc31a49800967509".parse().unwrap()).unwrap(),
ethkey::KeyPair::from_secret("7e94018b3731afdb3b4e6f4c3e179475640166da12e1d1b0c7d80729b1a5b452".parse().unwrap()).unwrap(),
ethkey::KeyPair::from_secret("5ab6ed2a52c33142380032c39a03a86b12eacb3fa4b53bc16d84f51318156f8c".parse().unwrap()).unwrap(),
];
let conf = ethcore_secretstore::ServiceConfiguration {
listener_addr: conf.interface,
listener_port: conf.port,
data_path: conf.data_path,
listener_address: ethcore_secretstore::NodeAddress {
address: conf.interface.clone(),
port: conf.port,
},
data_path: conf.data_path.clone(),
// TODO: this is test configuration. how it will be configured in production?
cluster_config: ethcore_secretstore::ClusterConfiguration {
threads: 4,
self_private: (***key_pairs[(conf.port - 8082) as usize].secret()).into(),
listener_address: ethcore_secretstore::NodeAddress {
address: conf.interface.clone(),
port: conf.port + 10,
},
nodes: key_pairs.iter().enumerate().map(|(i, kp)| (kp.public().clone(),
ethcore_secretstore::NodeAddress {
address: conf.interface.clone(),
port: 8082 + 10 + (i as u16),
})).collect(),
allow_connecting_to_higher_nodes: true,
encryption_config: ethcore_secretstore::EncryptionConfiguration {
key_check_timeout_ms: 1000,
},
}
};
let key_server = ethcore_secretstore::start(conf)

View File

@ -21,6 +21,7 @@ transient-hashmap = "0.4"
jsonrpc-core = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }
jsonrpc-http-server = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }
jsonrpc-minihttp-server = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }
jsonrpc-ipc-server = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }
jsonrpc-macros = { git = "https://github.com/paritytech/jsonrpc.git", branch = "parity-1.7" }

View File

@ -29,8 +29,9 @@ extern crate time;
extern crate transient_hashmap;
extern crate jsonrpc_core;
pub extern crate jsonrpc_http_server as http;
pub extern crate jsonrpc_ipc_server as ipc;
extern crate jsonrpc_http_server as http;
extern crate jsonrpc_minihttp_server as minihttp;
extern crate jsonrpc_ipc_server as ipc;
extern crate ethash;
extern crate ethcore;
@ -62,10 +63,15 @@ extern crate ethjson;
#[cfg(test)]
extern crate ethcore_devtools as devtools;
mod metadata;
pub mod v1;
pub use ipc::{Server as IpcServer, MetaExtractor as IpcMetaExtractor, RequestContext as IpcRequestContext};
pub use http::{HttpMetaExtractor, Server as HttpServer, Error as HttpServerError, AccessControlAllowOrigin, Host};
pub use http::{
hyper,
RequestMiddleware, RequestMiddlewareAction,
AccessControlAllowOrigin, Host,
};
pub use v1::{SigningQueue, SignerService, ConfirmationsQueue, NetworkSettings, Metadata, Origin, informant, dispatch};
pub use v1::block_import::is_major_importing;
@ -73,26 +79,98 @@ pub use v1::block_import::is_major_importing;
use std::net::SocketAddr;
use http::tokio_core;
/// RPC HTTP Server instance
pub enum HttpServer {
/// Fast MiniHTTP variant
Mini(minihttp::Server),
/// Hyper variant
Hyper(http::Server),
}
/// RPC HTTP Server error
#[derive(Debug)]
pub enum HttpServerError {
/// IO error
Io(::std::io::Error),
/// Other hyper error
Hyper(hyper::Error),
}
impl From<http::Error> for HttpServerError {
fn from(e: http::Error) -> Self {
use self::HttpServerError::*;
match e {
http::Error::Io(io) => Io(io),
http::Error::Other(hyper) => Hyper(hyper),
}
}
}
impl From<minihttp::Error> for HttpServerError {
fn from(e: minihttp::Error) -> Self {
use self::HttpServerError::*;
match e {
minihttp::Error::Io(io) => Io(io),
}
}
}
/// HTTP RPC server impl-independent metadata extractor
pub trait HttpMetaExtractor: Send + Sync + 'static {
/// Type of Metadata
type Metadata: jsonrpc_core::Metadata;
/// Extracts metadata from given params.
fn read_metadata(&self, origin: String, dapps_origin: Option<String>) -> Self::Metadata;
}
/// HTTP server implementation-specific settings.
pub enum HttpSettings<R: RequestMiddleware> {
/// Enable fast minihttp server with given number of threads.
Threads(usize),
/// Enable standard server with optional dapps middleware.
Dapps(Option<R>),
}
/// Start http server asynchronously and returns result with `Server` handle on success or an error.
pub fn start_http<M, S, H, T>(
pub fn start_http<M, S, H, T, R>(
addr: &SocketAddr,
cors_domains: http::DomainsValidation<http::AccessControlAllowOrigin>,
allowed_hosts: http::DomainsValidation<http::Host>,
handler: H,
remote: tokio_core::reactor::Remote,
extractor: T,
settings: HttpSettings<R>,
) -> Result<HttpServer, HttpServerError> where
M: jsonrpc_core::Metadata,
S: jsonrpc_core::Middleware<M>,
H: Into<jsonrpc_core::MetaIoHandler<M, S>>,
T: HttpMetaExtractor<M>,
T: HttpMetaExtractor<Metadata=M>,
R: RequestMiddleware,
{
http::ServerBuilder::new(handler)
Ok(match settings {
HttpSettings::Dapps(middleware) => {
let mut builder = http::ServerBuilder::new(handler)
.event_loop_remote(remote)
.meta_extractor(extractor)
.meta_extractor(metadata::HyperMetaExtractor::new(extractor))
.cors(cors_domains.into())
.allowed_hosts(allowed_hosts.into());
if let Some(dapps) = middleware {
builder = builder.request_middleware(dapps)
}
builder.start_http(addr)
.map(HttpServer::Hyper)?
},
HttpSettings::Threads(threads) => {
minihttp::ServerBuilder::new(handler)
.threads(threads)
.meta_extractor(metadata::MiniMetaExtractor::new(extractor))
.cors(cors_domains.into())
.allowed_hosts(allowed_hosts.into())
.start_http(addr)
.map(HttpServer::Mini)?
},
})
}
/// Start ipc server asynchronously and returns result with `Server` handle on success or an error.

74
rpc/src/metadata.rs Normal file
View File

@ -0,0 +1,74 @@
// Copyright 2015-2017 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/>.
use jsonrpc_core;
use http;
use hyper;
use minihttp;
use HttpMetaExtractor;
pub struct HyperMetaExtractor<T> {
extractor: T,
}
impl<T> HyperMetaExtractor<T> {
pub fn new(extractor: T) -> Self {
HyperMetaExtractor {
extractor: extractor,
}
}
}
impl<M, T> http::MetaExtractor<M> for HyperMetaExtractor<T> where
T: HttpMetaExtractor<Metadata = M>,
M: jsonrpc_core::Metadata,
{
fn read_metadata(&self, req: &hyper::server::Request<hyper::net::HttpStream>) -> M {
let origin = req.headers().get::<hyper::header::Origin>()
.map(|origin| format!("{}://{}", origin.scheme, origin.host))
.unwrap_or_else(|| "unknown".into());
let dapps_origin = req.headers().get_raw("x-parity-origin")
.and_then(|raw| raw.one())
.map(|raw| String::from_utf8_lossy(raw).into_owned());
self.extractor.read_metadata(origin, dapps_origin)
}
}
pub struct MiniMetaExtractor<T> {
extractor: T,
}
impl<T> MiniMetaExtractor<T> {
pub fn new(extractor: T) -> Self {
MiniMetaExtractor {
extractor: extractor,
}
}
}
impl<M, T> minihttp::MetaExtractor<M> for MiniMetaExtractor<T> where
T: HttpMetaExtractor<Metadata = M>,
M: jsonrpc_core::Metadata,
{
fn read_metadata(&self, req: &minihttp::Req) -> M {
let origin = req.header("origin")
.unwrap_or_else(|| "unknown")
.to_owned();
let dapps_origin = req.header("x-parity-origin").map(|h| h.to_owned());
self.extractor.read_metadata(origin, dapps_origin)
}
}

View File

@ -5,7 +5,7 @@ export TARGETS="
-p ethash \
-p ethcore \
-p ethcore-bigint\
-p ethcore-dapps \
-p parity-dapps \
-p ethcore-rpc \
-p ethcore-signer \
-p ethcore-util \

View File

@ -10,9 +10,19 @@ build = "build.rs"
ethcore-ipc-codegen = { path = "../ipc/codegen" }
[dependencies]
byteorder = "1.0"
log = "0.3"
parking_lot = "0.4"
hyper = { version = "0.10", default-features = false }
serde = "0.9"
serde_json = "0.9"
serde_derive = "0.9"
futures = "0.1"
futures-cpupool = "0.1"
rustc-serialize = "0.3"
tokio-core = "0.1"
tokio-service = "0.1"
tokio-proto = "0.1"
url = "1.0"
ethcore-devtools = { path = "../devtools" }
ethcore-util = { path = "../util" }

View File

@ -14,7 +14,6 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::str::FromStr;
use std::sync::Arc;
use hyper::header;
use hyper::uri::RequestUri;
@ -39,7 +38,9 @@ pub struct KeyServerHttpListener<T: KeyServer + 'static> {
enum Request {
/// Invalid request
Invalid,
/// Request encryption key of given document for given requestor
/// Generate encryption key.
GenerateDocumentKey(DocumentAddress, RequestSignature, usize),
/// Request encryption key of given document for given requestor.
GetDocumentKey(DocumentAddress, RequestSignature),
}
@ -63,9 +64,9 @@ impl<T> KeyServerHttpListener<T> where T: KeyServer + 'static {
handler: shared_handler.clone(),
};
let listener_addr: &str = &format!("{}:{}", config.listener_addr, config.listener_port);
let http_server = HttpServer::http(&listener_addr).unwrap();
let http_server = http_server.handle(handler).unwrap();
let listener_addr: &str = &format!("{}:{}", config.listener_address.address, config.listener_address.port);
let http_server = HttpServer::http(&listener_addr).expect("cannot start HttpServer");
let http_server = http_server.handle(handler).expect("cannot start HttpServer");
let listener = KeyServerHttpListener {
_http_server: http_server,
handler: shared_handler,
@ -75,6 +76,10 @@ impl<T> KeyServerHttpListener<T> where T: KeyServer + 'static {
}
impl<T> KeyServer for KeyServerHttpListener<T> where T: KeyServer + 'static {
fn generate_document_key(&self, signature: &RequestSignature, document: &DocumentAddress, threshold: usize) -> Result<DocumentEncryptedKey, Error> {
self.handler.key_server.generate_document_key(signature, document, threshold)
}
fn document_key(&self, signature: &RequestSignature, document: &DocumentAddress) -> Result<DocumentEncryptedKey, Error> {
self.handler.key_server.document_key(signature, document)
}
@ -82,33 +87,51 @@ impl<T> KeyServer for KeyServerHttpListener<T> where T: KeyServer + 'static {
impl<T> HttpHandler for KeyServerHttpHandler<T> where T: KeyServer + 'static {
fn handle(&self, req: HttpRequest, mut res: HttpResponse) {
if req.method != HttpMethod::Get {
warn!(target: "secretstore", "Ignoring {}-request {}", req.method, req.uri);
*res.status_mut() = HttpStatusCode::NotFound;
return;
}
if req.headers.has::<header::Origin>() {
warn!(target: "secretstore", "Ignoring {}-request {} with Origin header", req.method, req.uri);
*res.status_mut() = HttpStatusCode::NotFound;
return;
}
match req.uri {
RequestUri::AbsolutePath(ref path) => match parse_request(&path) {
Request::GetDocumentKey(document, signature) => {
let document_key = self.handler.key_server.document_key(&signature, &document)
let req_method = req.method.clone();
let req_uri = req.uri.clone();
match &req_uri {
&RequestUri::AbsolutePath(ref path) => match parse_request(&req_method, &path) {
Request::GenerateDocumentKey(document, signature, threshold) => {
return_document_key(req, res, self.handler.key_server.generate_document_key(&signature, &document, threshold)
.map_err(|err| {
warn!(target: "secretstore", "GetDocumentKey request {} has failed with: {}", req.uri, err);
warn!(target: "secretstore", "GenerateDocumentKey request {} has failed with: {}", req_uri, err);
err
});
}));
},
Request::GetDocumentKey(document, signature) => {
return_document_key(req, res, self.handler.key_server.document_key(&signature, &document)
.map_err(|err| {
warn!(target: "secretstore", "GetDocumentKey request {} has failed with: {}", req_uri, err);
err
}));
},
Request::Invalid => {
warn!(target: "secretstore", "Ignoring invalid {}-request {}", req_method, req_uri);
*res.status_mut() = HttpStatusCode::BadRequest;
},
},
_ => {
warn!(target: "secretstore", "Ignoring invalid {}-request {}", req_method, req_uri);
*res.status_mut() = HttpStatusCode::NotFound;
},
};
}
}
fn return_document_key(req: HttpRequest, mut res: HttpResponse, document_key: Result<DocumentEncryptedKey, Error>) {
match document_key {
Ok(document_key) => {
let document_key = document_key.to_hex().into_bytes();
res.headers_mut().set(header::ContentType::plaintext());
if let Err(err) = res.send(&document_key) {
// nothing to do, but log error
warn!(target: "secretstore", "GetDocumentKey request {} response has failed with: {}", req.uri, err);
// nothing to do, but to log an error
warn!(target: "secretstore", "response to request {} has failed with: {}", req.uri, err);
}
},
Err(Error::BadSignature) => *res.status_mut() = HttpStatusCode::BadRequest,
@ -117,60 +140,50 @@ impl<T> HttpHandler for KeyServerHttpHandler<T> where T: KeyServer + 'static {
Err(Error::Database(_)) => *res.status_mut() = HttpStatusCode::InternalServerError,
Err(Error::Internal(_)) => *res.status_mut() = HttpStatusCode::InternalServerError,
}
},
Request::Invalid => {
warn!(target: "secretstore", "Ignoring invalid {}-request {}", req.method, req.uri);
*res.status_mut() = HttpStatusCode::BadRequest;
},
},
_ => {
warn!(target: "secretstore", "Ignoring invalid {}-request {}", req.method, req.uri);
*res.status_mut() = HttpStatusCode::NotFound;
},
};
}
}
fn parse_request(uri_path: &str) -> Request {
fn parse_request(method: &HttpMethod, uri_path: &str) -> Request {
let uri_path = match percent_decode(uri_path.as_bytes()).decode_utf8() {
Ok(path) => path,
Err(_) => return Request::Invalid,
};
let path: Vec<String> = uri_path.trim_left_matches('/').split('/').map(Into::into).collect();
if path.len() != 2 || path[0].is_empty() || path[1].is_empty() {
if path.len() < 2 || path[0].is_empty() || path[1].is_empty() {
return Request::Invalid;
}
let document = DocumentAddress::from_str(&path[0]);
let signature = RequestSignature::from_str(&path[1]);
match (document, signature) {
(Ok(document), Ok(signature)) => Request::GetDocumentKey(document, signature),
let args_len = path.len();
let document = path[0].parse();
let signature = path[1].parse();
let threshold = (if args_len > 2 { &path[2] } else { "" }).parse();
match (args_len, method, document, signature, threshold) {
(3, &HttpMethod::Post, Ok(document), Ok(signature), Ok(threshold)) => Request::GenerateDocumentKey(document, signature, threshold),
(2, &HttpMethod::Get, Ok(document), Ok(signature), _) => Request::GetDocumentKey(document, signature),
_ => Request::Invalid,
}
}
#[cfg(test)]
mod tests {
use std::str::FromStr;
use super::super::RequestSignature;
use hyper::method::Method as HttpMethod;
use super::{parse_request, Request};
#[test]
fn parse_request_successful() {
assert_eq!(parse_request("/0000000000000000000000000000000000000000000000000000000000000001/a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01"),
assert_eq!(parse_request(&HttpMethod::Get, "/0000000000000000000000000000000000000000000000000000000000000001/a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01"),
Request::GetDocumentKey("0000000000000000000000000000000000000000000000000000000000000001".into(),
RequestSignature::from_str("a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01").unwrap()));
assert_eq!(parse_request("/%30000000000000000000000000000000000000000000000000000000000000001/a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01"),
"a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01".parse().unwrap()));
assert_eq!(parse_request(&HttpMethod::Get, "/%30000000000000000000000000000000000000000000000000000000000000001/a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01"),
Request::GetDocumentKey("0000000000000000000000000000000000000000000000000000000000000001".into(),
RequestSignature::from_str("a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01").unwrap()));
"a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01".parse().unwrap()));
}
#[test]
fn parse_request_failed() {
assert_eq!(parse_request("/0000000000000000000000000000000000000000000000000000000000000001"), Request::Invalid);
assert_eq!(parse_request("/0000000000000000000000000000000000000000000000000000000000000001/"), Request::Invalid);
assert_eq!(parse_request("/a/b"), Request::Invalid);
assert_eq!(parse_request("/0000000000000000000000000000000000000000000000000000000000000001/a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01/0000000000000000000000000000000000000000000000000000000000000002"), Request::Invalid);
assert_eq!(parse_request(&HttpMethod::Get, "/0000000000000000000000000000000000000000000000000000000000000001"), Request::Invalid);
assert_eq!(parse_request(&HttpMethod::Get, "/0000000000000000000000000000000000000000000000000000000000000001/"), Request::Invalid);
assert_eq!(parse_request(&HttpMethod::Get, "/a/b"), Request::Invalid);
assert_eq!(parse_request(&HttpMethod::Get, "/0000000000000000000000000000000000000000000000000000000000000001/a199fb39e11eefb61c78a4074a53c0d4424600a3e74aad4fb9d93a26c30d067e1d4d29936de0c73f19827394a1dd049480a0d581aee7ae7546968da7d3d1c2fd01/0000000000000000000000000000000000000000000000000000000000000002"), Request::Invalid);
}
}

View File

@ -14,42 +14,78 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::thread;
use std::sync::Arc;
use std::sync::mpsc;
use futures::{self, Future};
use parking_lot::Mutex;
use tokio_core::reactor::Core;
use ethcrypto;
use ethkey;
use super::acl_storage::AclStorage;
use super::key_storage::KeyStorage;
use key_server_cluster::ClusterCore;
use traits::KeyServer;
use types::all::{Error, RequestSignature, DocumentAddress, DocumentEncryptedKey};
use types::all::{Error, RequestSignature, DocumentAddress, DocumentEncryptedKey, ClusterConfiguration};
use key_server_cluster::{ClusterClient, ClusterConfiguration as NetClusterConfiguration};
/// Secret store key server implementation
pub struct KeyServerImpl<T: AclStorage, U: KeyStorage> {
acl_storage: T,
key_storage: U,
pub struct KeyServerImpl {
data: Arc<Mutex<KeyServerCore>>,
}
impl<T, U> KeyServerImpl<T, U> where T: AclStorage, U: KeyStorage {
/// Secret store key server data.
pub struct KeyServerCore {
close: Option<futures::Complete<()>>,
handle: Option<thread::JoinHandle<()>>,
cluster: Option<Arc<ClusterClient>>,
}
impl KeyServerImpl {
/// Create new key server instance
pub fn new(acl_storage: T, key_storage: U) -> Self {
KeyServerImpl {
acl_storage: acl_storage,
key_storage: key_storage,
pub fn new(config: &ClusterConfiguration, acl_storage: Arc<AclStorage>, key_storage: Arc<KeyStorage>) -> Result<Self, Error> {
Ok(KeyServerImpl {
data: Arc::new(Mutex::new(KeyServerCore::new(config, acl_storage, key_storage)?)),
})
}
#[cfg(test)]
/// Get cluster client reference.
pub fn cluster(&self) -> Arc<ClusterClient> {
self.data.lock().cluster.clone()
.expect("cluster can be None in test cfg only; test cfg is for correct tests; qed")
}
}
impl<T, U> KeyServer for KeyServerImpl<T, U> where T: AclStorage, U: KeyStorage {
impl KeyServer for KeyServerImpl {
fn generate_document_key(&self, signature: &RequestSignature, document: &DocumentAddress, threshold: usize) -> Result<DocumentEncryptedKey, Error> {
// recover requestor' public key from signature
let public = ethkey::recover(signature, document)
.map_err(|_| Error::BadSignature)?;
// generate document key
let data = self.data.lock();
let encryption_session = data.cluster.as_ref().expect("cluster can be None in test cfg only; test cfg is for correct tests; qed")
.new_encryption_session(document.clone(), threshold)?;
let document_key = encryption_session.wait()?;
// encrypt document key with requestor public key
let document_key = ethcrypto::ecies::encrypt_single_message(&public, &document_key)
.map_err(|err| Error::Internal(format!("Error encrypting document key: {}", err)))?;
Ok(document_key)
}
fn document_key(&self, signature: &RequestSignature, document: &DocumentAddress) -> Result<DocumentEncryptedKey, Error> {
// recover requestor' public key from signature
let public = ethkey::recover(signature, document)
.map_err(|_| Error::BadSignature)?;
// check that requestor has access to the document
if !self.acl_storage.check(&public, document)? {
return Err(Error::AccessDenied);
}
// decrypt document key
let data = self.data.lock();
let decryption_session = data.cluster.as_ref().expect("cluster can be None in test cfg only; test cfg is for correct tests; qed")
.new_decryption_session(document.clone(), signature.clone())?;
let document_key = decryption_session.wait()?;
// read unencrypted document key
let document_key = self.key_storage.get(document)?;
// encrypt document key with requestor public key
let document_key = ethcrypto::ecies::encrypt_single_message(&public, &document_key)
.map_err(|err| Error::Internal(format!("Error encrypting document key: {}", err)))?;
@ -57,68 +93,132 @@ impl<T, U> KeyServer for KeyServerImpl<T, U> where T: AclStorage, U: KeyStorage
}
}
impl KeyServerCore {
pub fn new(config: &ClusterConfiguration, acl_storage: Arc<AclStorage>, key_storage: Arc<KeyStorage>) -> Result<Self, Error> {
let config = NetClusterConfiguration {
threads: config.threads,
self_key_pair: ethkey::KeyPair::from_secret_slice(&config.self_private)?,
listen_address: (config.listener_address.address.clone(), config.listener_address.port),
nodes: config.nodes.iter()
.map(|(node_id, node_address)| (node_id.clone(), (node_address.address.clone(), node_address.port)))
.collect(),
allow_connecting_to_higher_nodes: config.allow_connecting_to_higher_nodes,
encryption_config: config.encryption_config.clone(),
acl_storage: acl_storage,
key_storage: key_storage,
};
let (stop, stopped) = futures::oneshot();
let (tx, rx) = mpsc::channel();
let handle = thread::spawn(move || {
let mut el = match Core::new() {
Ok(el) => el,
Err(e) => {
tx.send(Err(Error::Internal(format!("error initializing event loop: {}", e)))).expect("Rx is blocking upper thread.");
return;
},
};
let cluster = ClusterCore::new(el.handle(), config);
let cluster_client = cluster.and_then(|c| c.run().map(|_| c.client()));
tx.send(cluster_client.map_err(Into::into)).expect("Rx is blocking upper thread.");
let _ = el.run(futures::empty().select(stopped));
});
let cluster = rx.recv().map_err(|e| Error::Internal(format!("error initializing event loop: {}", e)))??;
Ok(KeyServerCore {
close: Some(stop),
handle: Some(handle),
cluster: Some(cluster),
})
}
}
impl Drop for KeyServerCore {
fn drop(&mut self) {
self.close.take().map(|v| v.send(()));
self.handle.take().map(|h| h.join());
}
}
#[cfg(test)]
mod tests {
use std::str::FromStr;
use std::time;
use std::sync::Arc;
use ethcrypto;
use ethkey::{self, Secret};
use ethkey::{self, Random, Generator};
use acl_storage::DummyAclStorage;
use key_storage::KeyStorage;
use key_storage::tests::DummyKeyStorage;
use super::super::{Error, RequestSignature, DocumentAddress};
use types::all::{ClusterConfiguration, NodeAddress, EncryptionConfiguration, DocumentEncryptedKey, DocumentKey};
use super::super::{RequestSignature, DocumentAddress};
use super::{KeyServer, KeyServerImpl};
const DOCUMENT1: &'static str = "0000000000000000000000000000000000000000000000000000000000000001";
const DOCUMENT2: &'static str = "0000000000000000000000000000000000000000000000000000000000000002";
const KEY1: &'static str = "key1";
const PRIVATE1: &'static str = "03055e18a8434dcc9061cc1b81c4ef84dc7cf4574d755e52cdcf0c8898b25b11";
const PUBLIC2: &'static str = "dfe62f56bb05fbd85b485bac749f3410309e24b352bac082468ce151e9ddb94fa7b5b730027fe1c7c5f3d5927621d269f91aceb5caa3c7fe944677a22f88a318";
const PRIVATE2: &'static str = "0eb3816f4f705fa0fd952fb27b71b8c0606f09f4743b5b65cbc375bd569632f2";
fn create_key_server() -> KeyServerImpl<DummyAclStorage, DummyKeyStorage> {
let acl_storage = DummyAclStorage::default();
let key_storage = DummyKeyStorage::default();
key_storage.insert(DOCUMENT1.into(), KEY1.into()).unwrap();
acl_storage.prohibit(PUBLIC2.into(), DOCUMENT1.into());
KeyServerImpl::new(acl_storage, key_storage)
}
fn make_signature(secret: &str, document: &'static str) -> RequestSignature {
let secret = Secret::from_str(secret).unwrap();
let secret = secret.parse().unwrap();
let document: DocumentAddress = document.into();
ethkey::sign(&secret, &document).unwrap()
}
fn decrypt_document_key(secret: &str, document_key: DocumentEncryptedKey) -> DocumentKey {
let secret = secret.parse().unwrap();
ethcrypto::ecies::decrypt_single_message(&secret, &document_key).unwrap()
}
#[test]
fn document_key_succeeds() {
let key_server = create_key_server();
fn document_key_generation_and_retrievement_works_over_network() {
//::util::log::init_log();
let num_nodes = 3;
let key_pairs: Vec<_> = (0..num_nodes).map(|_| Random.generate().unwrap()).collect();
let configs: Vec<_> = (0..num_nodes).map(|i| ClusterConfiguration {
threads: 1,
self_private: (***key_pairs[i].secret()).into(),
listener_address: NodeAddress {
address: "127.0.0.1".into(),
port: 6060 + (i as u16),
},
nodes: key_pairs.iter().enumerate().map(|(j, kp)| (kp.public().clone(),
NodeAddress {
address: "127.0.0.1".into(),
port: 6060 + (j as u16),
})).collect(),
allow_connecting_to_higher_nodes: false,
encryption_config: EncryptionConfiguration {
key_check_timeout_ms: 10,
},
}).collect();
let key_servers: Vec<_> = configs.into_iter().map(|cfg|
KeyServerImpl::new(&cfg, Arc::new(DummyAclStorage::default()), Arc::new(DummyKeyStorage::default())).unwrap()
).collect();
// wait until connections are established
let start = time::Instant::now();
loop {
if key_servers.iter().all(|ks| ks.cluster().cluster_state().connected.len() == num_nodes - 1) {
break;
}
if time::Instant::now() - start > time::Duration::from_millis(30000) {
panic!("connections are not established in 30000ms");
}
}
let test_cases = [0, 1, 2];
for threshold in &test_cases {
// generate document key
// TODO: it is an error that we can regenerate key for the same DOCUMENT
let signature = make_signature(PRIVATE1, DOCUMENT1);
let document_key = key_server.document_key(&signature, &DOCUMENT1.into()).unwrap();
let document_key = ethcrypto::ecies::decrypt_single_message(&Secret::from_str(PRIVATE1).unwrap(), &document_key);
assert_eq!(document_key, Ok(KEY1.into()));
}
let generated_key = key_servers[0].generate_document_key(&signature, &DOCUMENT1.into(), *threshold).unwrap();
let generated_key = decrypt_document_key(PRIVATE1, generated_key);
#[test]
fn document_key_fails_when_bad_signature() {
let key_server = create_key_server();
let signature = RequestSignature::default();
let document_key = key_server.document_key(&signature, &DOCUMENT1.into());
assert_eq!(document_key, Err(Error::BadSignature));
}
#[test]
fn document_key_fails_when_acl_check_fails() {
let key_server = create_key_server();
let signature = make_signature(PRIVATE2, DOCUMENT1);
let document_key = key_server.document_key(&signature, &DOCUMENT1.into());
assert_eq!(document_key, Err(Error::AccessDenied));
}
#[test]
fn document_key_fails_when_document_not_found() {
let key_server = create_key_server();
let signature = make_signature(PRIVATE1, DOCUMENT2);
let document_key = key_server.document_key(&signature, &DOCUMENT2.into());
assert_eq!(document_key, Err(Error::DocumentNotFound));
// now let's try to retrieve key back
for key_server in key_servers.iter() {
let retrieved_key = key_server.document_key(&signature, &DOCUMENT1.into()).unwrap();
let retrieved_key = decrypt_document_key(PRIVATE1, retrieved_key);
assert_eq!(retrieved_key, generated_key);
}
}
}
}

View File

@ -14,11 +14,42 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use key_server_cluster::{Error, NodeId};
use key_server_cluster::message::Message;
use std::io;
use std::time;
use std::sync::Arc;
use std::collections::{BTreeMap, BTreeSet, VecDeque};
use std::collections::btree_map::Entry;
use std::net::{SocketAddr, IpAddr};
use futures::{finished, failed, Future, Stream, BoxFuture};
use futures_cpupool::CpuPool;
use parking_lot::{RwLock, Mutex};
use tokio_core::io::IoFuture;
use tokio_core::reactor::{Handle, Remote, Timeout, Interval};
use tokio_core::net::{TcpListener, TcpStream};
use ethkey::{Secret, KeyPair, Signature, Random, Generator};
use key_server_cluster::{Error, NodeId, SessionId, EncryptionConfiguration, AclStorage, KeyStorage};
use key_server_cluster::message::{self, Message, ClusterMessage, EncryptionMessage, DecryptionMessage};
use key_server_cluster::decryption_session::{SessionImpl as DecryptionSessionImpl, DecryptionSessionId,
SessionParams as DecryptionSessionParams, Session as DecryptionSession};
use key_server_cluster::encryption_session::{SessionImpl as EncryptionSessionImpl, SessionState as EncryptionSessionState,
SessionParams as EncryptionSessionParams, Session as EncryptionSession};
use key_server_cluster::io::{DeadlineStatus, ReadMessage, SharedTcpStream, read_encrypted_message, WriteMessage, write_encrypted_message};
use key_server_cluster::net::{accept_connection as net_accept_connection, connect as net_connect, Connection as NetConnection};
pub type BoxedEmptyFuture = BoxFuture<(), ()>;
/// Cluster interface for external clients.
pub trait ClusterClient: Send + Sync {
/// Get cluster state.
fn cluster_state(&self) -> ClusterState;
/// Start new encryption session.
fn new_encryption_session(&self, session_id: SessionId, threshold: usize) -> Result<Arc<EncryptionSession>, Error>;
/// Start new decryption session.
fn new_decryption_session(&self, session_id: SessionId, requestor_signature: Signature) -> Result<Arc<DecryptionSession>, Error>;
}
/// Cluster access for single encryption/decryption participant.
pub trait Cluster {
pub trait Cluster: Send + Sync {
/// Broadcast message to all other nodes.
fn broadcast(&self, message: Message) -> Result<(), Error>;
/// Send message to given node.
@ -27,13 +58,841 @@ pub trait Cluster {
fn blacklist(&self, node: &NodeId);
}
#[derive(Clone)]
/// Cluster initialization parameters.
pub struct ClusterConfiguration {
/// Number of threads reserved by cluster.
pub threads: usize,
/// Allow connecting to 'higher' nodes.
pub allow_connecting_to_higher_nodes: bool,
/// KeyPair this node holds.
pub self_key_pair: KeyPair,
/// Interface to listen to.
pub listen_address: (String, u16),
/// Cluster nodes.
pub nodes: BTreeMap<NodeId, (String, u16)>,
/// Encryption session configuration.
pub encryption_config: EncryptionConfiguration,
/// Reference to key storage
pub key_storage: Arc<KeyStorage>,
/// Reference to ACL storage
pub acl_storage: Arc<AclStorage>,
}
/// Cluster state.
pub struct ClusterState {
/// Nodes, to which connections are established.
pub connected: BTreeSet<NodeId>,
}
/// Network cluster implementation.
pub struct ClusterCore {
/// Handle to the event loop.
handle: Handle,
/// Listen address.
listen_address: SocketAddr,
/// Cluster data.
data: Arc<ClusterData>,
}
/// Network cluster client interface implementation.
pub struct ClusterClientImpl {
/// Cluster data.
data: Arc<ClusterData>,
}
/// Network cluster view. It is a communication channel, required in single session.
pub struct ClusterView {
core: Arc<Mutex<ClusterViewCore>>,
}
/// Cross-thread shareable cluster data.
pub struct ClusterData {
/// Cluster configuration.
config: ClusterConfiguration,
/// Handle to the event loop.
handle: Remote,
/// Handle to the cpu thread pool.
pool: CpuPool,
/// KeyPair this node holds.
self_key_pair: KeyPair,
/// Connections data.
connections: ClusterConnections,
/// Active sessions data.
sessions: ClusterSessions,
}
/// Connections that are forming the cluster.
pub struct ClusterConnections {
/// Self node id.
pub self_node_id: NodeId,
/// All known other key servers.
pub nodes: BTreeMap<NodeId, SocketAddr>,
/// Active connections to key servers.
pub connections: RwLock<BTreeMap<NodeId, Arc<Connection>>>,
}
/// Active sessions on this cluster.
pub struct ClusterSessions {
/// Self node id.
pub self_node_id: NodeId,
/// Reference to key storage
pub key_storage: Arc<KeyStorage>,
/// Reference to ACL storage
pub acl_storage: Arc<AclStorage>,
/// Active encryption sessions.
pub encryption_sessions: RwLock<BTreeMap<SessionId, QueuedEncryptionSession>>,
/// Active decryption sessions.
pub decryption_sessions: RwLock<BTreeMap<DecryptionSessionId, QueuedDecryptionSession>>,
}
/// Encryption session and its message queue.
pub struct QueuedEncryptionSession {
/// Encryption session.
pub session: Arc<EncryptionSessionImpl>,
/// Messages queue.
pub queue: VecDeque<(NodeId, EncryptionMessage)>,
}
/// Decryption session and its message queue.
pub struct QueuedDecryptionSession {
/// Decryption session.
pub session: Arc<DecryptionSessionImpl>,
/// Messages queue.
pub queue: VecDeque<(NodeId, DecryptionMessage)>,
}
/// Cluster view core.
struct ClusterViewCore {
/// Cluster reference.
cluster: Arc<ClusterData>,
/// Subset of nodes, required for this session.
nodes: BTreeSet<NodeId>,
}
/// Connection to single node.
pub struct Connection {
/// Node id.
node_id: NodeId,
/// Node address.
node_address: SocketAddr,
/// Is inbound connection?
is_inbound: bool,
/// Tcp stream.
stream: SharedTcpStream,
/// Connection key.
key: Secret,
/// Last message time.
last_message_time: Mutex<time::Instant>,
}
impl ClusterCore {
pub fn new(handle: Handle, config: ClusterConfiguration) -> Result<Arc<Self>, Error> {
let listen_address = make_socket_address(&config.listen_address.0, config.listen_address.1)?;
let connections = ClusterConnections::new(&config)?;
let sessions = ClusterSessions::new(&config);
let data = ClusterData::new(&handle, config, connections, sessions);
Ok(Arc::new(ClusterCore {
handle: handle,
listen_address: listen_address,
data: data,
}))
}
/// Create new client interface.
pub fn client(&self) -> Arc<ClusterClient> {
Arc::new(ClusterClientImpl::new(self.data.clone()))
}
#[cfg(test)]
/// Get cluster configuration.
pub fn config(&self) -> &ClusterConfiguration {
&self.data.config
}
#[cfg(test)]
/// Get connection to given node.
pub fn connection(&self, node: &NodeId) -> Option<Arc<Connection>> {
self.data.connection(node)
}
/// Run cluster
pub fn run(&self) -> Result<(), Error> {
// try to connect to every other peer
ClusterCore::connect_disconnected_nodes(self.data.clone());
// schedule maintain procedures
ClusterCore::schedule_maintain(&self.handle, self.data.clone());
// start listening for incoming connections
self.handle.spawn(ClusterCore::listen(&self.handle, self.data.clone(), self.listen_address.clone())?);
Ok(())
}
/// Connect to peer.
fn connect(data: Arc<ClusterData>, node_address: SocketAddr) {
data.handle.clone().spawn(move |handle| {
data.pool.clone().spawn(ClusterCore::connect_future(handle, data, node_address))
})
}
/// Connect to socket using given context and handle.
fn connect_future(handle: &Handle, data: Arc<ClusterData>, node_address: SocketAddr) -> BoxedEmptyFuture {
let disconnected_nodes = data.connections.disconnected_nodes().keys().cloned().collect();
net_connect(&node_address, handle, data.self_key_pair.clone(), disconnected_nodes)
.then(move |result| ClusterCore::process_connection_result(data, false, result))
.then(|_| finished(()))
.boxed()
}
/// Start listening for incoming connections.
fn listen(handle: &Handle, data: Arc<ClusterData>, listen_address: SocketAddr) -> Result<BoxedEmptyFuture, Error> {
Ok(TcpListener::bind(&listen_address, &handle)?
.incoming()
.and_then(move |(stream, node_address)| {
ClusterCore::accept_connection(data.clone(), stream, node_address);
Ok(())
})
.for_each(|_| Ok(()))
.then(|_| finished(()))
.boxed())
}
/// Accept connection.
fn accept_connection(data: Arc<ClusterData>, stream: TcpStream, node_address: SocketAddr) {
data.handle.clone().spawn(move |handle| {
data.pool.clone().spawn(ClusterCore::accept_connection_future(handle, data, stream, node_address))
})
}
/// Accept connection future.
fn accept_connection_future(handle: &Handle, data: Arc<ClusterData>, stream: TcpStream, node_address: SocketAddr) -> BoxedEmptyFuture {
let disconnected_nodes = data.connections.disconnected_nodes().keys().cloned().collect();
net_accept_connection(node_address, stream, handle, data.self_key_pair.clone(), disconnected_nodes)
.then(move |result| ClusterCore::process_connection_result(data, true, result))
.then(|_| finished(()))
.boxed()
}
/// Schedule mainatain procedures.
fn schedule_maintain(handle: &Handle, data: Arc<ClusterData>) {
// TODO: per-session timeouts (node can respond to messages, but ignore sessions messages)
let (d1, d2, d3) = (data.clone(), data.clone(), data.clone());
let interval: BoxedEmptyFuture = Interval::new(time::Duration::new(10, 0), handle)
.expect("failed to create interval")
.and_then(move |_| Ok(trace!(target: "secretstore_net", "{}: executing maintain procedures", d1.self_key_pair.public())))
.and_then(move |_| Ok(ClusterCore::keep_alive(d2.clone())))
.and_then(move |_| Ok(ClusterCore::connect_disconnected_nodes(d3.clone())))
.for_each(|_| Ok(()))
.then(|_| finished(()))
.boxed();
data.spawn(interval);
}
/// Called for every incomming mesage.
fn process_connection_messages(data: Arc<ClusterData>, connection: Arc<Connection>) -> IoFuture<Result<(), Error>> {
connection
.read_message()
.then(move |result|
match result {
Ok((_, Ok(message))) => {
ClusterCore::process_connection_message(data.clone(), connection.clone(), message);
// continue serving connection
data.spawn(ClusterCore::process_connection_messages(data.clone(), connection));
finished(Ok(())).boxed()
},
Ok((_, Err(err))) => {
warn!(target: "secretstore_net", "{}: protocol error {} when reading message from node {}", data.self_key_pair.public(), err, connection.node_id());
// continue serving connection
data.spawn(ClusterCore::process_connection_messages(data.clone(), connection));
finished(Err(err)).boxed()
},
Err(err) => {
warn!(target: "secretstore_net", "{}: network error {} when reading message from node {}", data.self_key_pair.public(), err, connection.node_id());
// close connection
data.connections.remove(connection.node_id(), connection.is_inbound());
failed(err).boxed()
},
}
).boxed()
}
/// Send keepalive messages to every othe node.
fn keep_alive(data: Arc<ClusterData>) {
for connection in data.connections.active_connections() {
let last_message_diff = time::Instant::now() - connection.last_message_time();
if last_message_diff > time::Duration::from_secs(60) {
data.connections.remove(connection.node_id(), connection.is_inbound());
data.sessions.on_connection_timeout(connection.node_id());
}
else if last_message_diff > time::Duration::from_secs(30) {
data.spawn(connection.send_message(Message::Cluster(ClusterMessage::KeepAlive(message::KeepAlive {}))));
}
}
}
/// Try to connect to every disconnected node.
fn connect_disconnected_nodes(data: Arc<ClusterData>) {
for (node_id, node_address) in data.connections.disconnected_nodes() {
if data.config.allow_connecting_to_higher_nodes || data.self_key_pair.public() < &node_id {
ClusterCore::connect(data.clone(), node_address);
}
}
}
/// Process connection future result.
fn process_connection_result(data: Arc<ClusterData>, is_inbound: bool, result: Result<DeadlineStatus<Result<NetConnection, Error>>, io::Error>) -> IoFuture<Result<(), Error>> {
match result {
Ok(DeadlineStatus::Meet(Ok(connection))) => {
let connection = Connection::new(is_inbound, connection);
if data.connections.insert(connection.clone()) {
ClusterCore::process_connection_messages(data.clone(), connection)
} else {
finished(Ok(())).boxed()
}
},
Ok(DeadlineStatus::Meet(Err(_))) => {
finished(Ok(())).boxed()
},
Ok(DeadlineStatus::Timeout) => {
finished(Ok(())).boxed()
},
Err(_) => {
// network error
finished(Ok(())).boxed()
},
}
}
/// Process single message from the connection.
fn process_connection_message(data: Arc<ClusterData>, connection: Arc<Connection>, message: Message) {
connection.set_last_message_time(time::Instant::now());
trace!(target: "secretstore_net", "{}: processing message {} from {}", data.self_key_pair.public(), message, connection.node_id());
match message {
Message::Encryption(message) => ClusterCore::process_encryption_message(data, connection, message),
Message::Decryption(message) => ClusterCore::process_decryption_message(data, connection, message),
Message::Cluster(message) => ClusterCore::process_cluster_message(data, connection, message),
}
}
/// Process single encryption message from the connection.
fn process_encryption_message(data: Arc<ClusterData>, connection: Arc<Connection>, mut message: EncryptionMessage) {
let mut sender = connection.node_id().clone();
let mut is_queued_message = false;
let session_id = message.session_id().clone();
let key_check_timeout_ms = data.config.encryption_config.key_check_timeout_ms;
loop {
let result = match message {
EncryptionMessage::InitializeSession(ref message) => {
let mut connected_nodes = data.connections.connected_nodes();
connected_nodes.insert(data.self_key_pair.public().clone());
let cluster = Arc::new(ClusterView::new(data.clone(), connected_nodes));
let session_id: SessionId = message.session.clone().into();
data.sessions.new_encryption_session(sender.clone(), session_id.clone(), cluster)
.and_then(|s| s.on_initialize_session(sender.clone(), message))
},
EncryptionMessage::ConfirmInitialization(ref message) => data.sessions.encryption_session(&*message.session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| s.on_confirm_initialization(sender.clone(), message)),
EncryptionMessage::CompleteInitialization(ref message) => data.sessions.encryption_session(&*message.session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| s.on_complete_initialization(sender.clone(), message)),
EncryptionMessage::KeysDissemination(ref message) => data.sessions.encryption_session(&*message.session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| {
// TODO: move this logic to session (or session connector)
let is_in_key_check_state = s.state() == EncryptionSessionState::KeyCheck;
let result = s.on_keys_dissemination(sender.clone(), message);
if !is_in_key_check_state && s.state() == EncryptionSessionState::KeyCheck {
let session = s.clone();
let d = data.clone();
data.handle.spawn(move |handle|
Timeout::new(time::Duration::new(key_check_timeout_ms / 1000, 0), handle)
.expect("failed to create timeout")
.and_then(move |_| {
if let Err(error) = session.start_key_generation_phase() {
session.on_session_error(d.self_key_pair.public().clone(), &message::SessionError {
session: session.id().clone().into(),
error: error.into(),
});
}
Ok(())
})
.then(|_| finished(()))
);
}
result
}),
EncryptionMessage::Complaint(ref message) => data.sessions.encryption_session(&*message.session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| s.on_complaint(sender.clone(), message)),
EncryptionMessage::ComplaintResponse(ref message) => data.sessions.encryption_session(&*message.session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| s.on_complaint_response(sender.clone(), message)),
EncryptionMessage::PublicKeyShare(ref message) => data.sessions.encryption_session(&*message.session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| s.on_public_key_share(sender.clone(), message)),
EncryptionMessage::SessionError(ref message) => {
if let Some(s) = data.sessions.encryption_session(&*message.session) {
data.sessions.remove_encryption_session(s.id());
s.on_session_error(sender.clone(), message);
}
Ok(())
},
EncryptionMessage::SessionCompleted(ref message) => data.sessions.encryption_session(&*message.session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| {
let result = s.on_session_completed(sender.clone(), message);
if result.is_ok() && s.state() == EncryptionSessionState::Finished {
data.sessions.remove_encryption_session(s.id());
}
result
}),
};
match result {
Err(Error::TooEarlyForRequest) => {
data.sessions.enqueue_encryption_message(&session_id, sender, message, is_queued_message);
break;
},
Err(err) => {
warn!(target: "secretstore_net", "{}: error {} when processing message {} from node {}", data.self_key_pair.public(), err, message, sender);
if let Some(connection) = data.connections.get(&sender) {
data.spawn(connection.send_message(Message::Encryption(EncryptionMessage::SessionError(message::SessionError {
session: session_id.clone().into(),
error: format!("{:?}", err),
}))));
}
if err != Error::InvalidSessionId {
data.sessions.remove_encryption_session(&session_id);
}
break;
},
_ => {
match data.sessions.dequeue_encryption_message(&session_id) {
Some((msg_sender, msg)) => {
is_queued_message = true;
sender = msg_sender;
message = msg;
},
None => break,
}
},
}
}
}
/// Process single decryption message from the connection.
fn process_decryption_message(data: Arc<ClusterData>, connection: Arc<Connection>, mut message: DecryptionMessage) {
let mut sender = connection.node_id().clone();
let mut is_queued_message = false;
let session_id = message.session_id().clone();
let sub_session_id = message.sub_session_id().clone();
loop {
let result = match message {
DecryptionMessage::InitializeDecryptionSession(ref message) => {
let mut connected_nodes = data.connections.connected_nodes();
connected_nodes.insert(data.self_key_pair.public().clone());
let cluster = Arc::new(ClusterView::new(data.clone(), connected_nodes));
data.sessions.new_decryption_session(sender.clone(), session_id.clone(), sub_session_id.clone(), cluster)
.and_then(|s| s.on_initialize_session(sender.clone(), message))
},
DecryptionMessage::ConfirmDecryptionInitialization(ref message) => data.sessions.decryption_session(&*message.session, &*message.sub_session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| s.on_confirm_initialization(sender.clone(), message)),
DecryptionMessage::RequestPartialDecryption(ref message) => data.sessions.decryption_session(&*message.session, &*message.sub_session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| s.on_partial_decryption_requested(sender.clone(), message)),
DecryptionMessage::PartialDecryption(ref message) => data.sessions.decryption_session(&*message.session, &*message.sub_session)
.ok_or(Error::InvalidSessionId)
.and_then(|s| s.on_partial_decryption(sender.clone(), message)),
DecryptionMessage::DecryptionSessionError(ref message) => {
if let Some(s) = data.sessions.decryption_session(&*message.session, &*message.sub_session) {
data.sessions.remove_decryption_session(&session_id, &sub_session_id);
s.on_session_error(sender.clone(), message);
}
Ok(())
},
};
match result {
Err(Error::TooEarlyForRequest) => {
data.sessions.enqueue_decryption_message(&session_id, &sub_session_id, sender, message, is_queued_message);
break;
},
Err(err) => {
if let Some(connection) = data.connections.get(&sender) {
data.spawn(connection.send_message(Message::Decryption(DecryptionMessage::DecryptionSessionError(message::DecryptionSessionError {
session: session_id.clone().into(),
sub_session: sub_session_id.clone().into(),
error: format!("{:?}", err),
}))));
}
if err != Error::InvalidSessionId {
data.sessions.remove_decryption_session(&session_id, &sub_session_id);
}
break;
},
_ => {
match data.sessions.dequeue_decryption_message(&session_id, &sub_session_id) {
Some((msg_sender, msg)) => {
is_queued_message = true;
sender = msg_sender;
message = msg;
},
None => break,
}
},
}
}
}
/// Process single cluster message from the connection.
fn process_cluster_message(data: Arc<ClusterData>, connection: Arc<Connection>, message: ClusterMessage) {
match message {
ClusterMessage::KeepAlive(_) => data.spawn(connection.send_message(Message::Cluster(ClusterMessage::KeepAliveResponse(message::KeepAliveResponse {})))),
ClusterMessage::KeepAliveResponse(_) => (),
_ => warn!(target: "secretstore_net", "{}: received unexpected message {} from node {} at {}", data.self_key_pair.public(), message, connection.node_id(), connection.node_address()),
}
}
}
impl ClusterConnections {
pub fn new(config: &ClusterConfiguration) -> Result<Self, Error> {
let mut connections = ClusterConnections {
self_node_id: config.self_key_pair.public().clone(),
nodes: BTreeMap::new(),
connections: RwLock::new(BTreeMap::new()),
};
for (node_id, &(ref node_addr, node_port)) in config.nodes.iter().filter(|&(node_id, _)| node_id != config.self_key_pair.public()) {
let socket_address = make_socket_address(&node_addr, node_port)?;
connections.nodes.insert(node_id.clone(), socket_address);
}
Ok(connections)
}
pub fn cluster_state(&self) -> ClusterState {
ClusterState {
connected: self.connections.read().keys().cloned().collect(),
}
}
pub fn get(&self, node: &NodeId) -> Option<Arc<Connection>> {
self.connections.read().get(node).cloned()
}
pub fn insert(&self, connection: Arc<Connection>) -> bool {
let mut connections = self.connections.write();
if connections.contains_key(connection.node_id()) {
// we have already connected to the same node
// the agreement is that node with lower id must establish connection to node with higher id
if (&self.self_node_id < connection.node_id() && connection.is_inbound())
|| (&self.self_node_id > connection.node_id() && !connection.is_inbound()) {
return false;
}
}
trace!(target: "secretstore_net", "{}: inserting connection to {} at {}", self.self_node_id, connection.node_id(), connection.node_address());
connections.insert(connection.node_id().clone(), connection);
true
}
pub fn remove(&self, node: &NodeId, is_inbound: bool) {
let mut connections = self.connections.write();
if let Entry::Occupied(entry) = connections.entry(node.clone()) {
if entry.get().is_inbound() != is_inbound {
return;
}
trace!(target: "secretstore_net", "{}: removing connection to {} at {}", self.self_node_id, entry.get().node_id(), entry.get().node_address());
entry.remove_entry();
}
}
pub fn connected_nodes(&self) -> BTreeSet<NodeId> {
self.connections.read().keys().cloned().collect()
}
pub fn active_connections(&self)-> Vec<Arc<Connection>> {
self.connections.read().values().cloned().collect()
}
pub fn disconnected_nodes(&self) -> BTreeMap<NodeId, SocketAddr> {
let connections = self.connections.read();
self.nodes.iter()
.filter(|&(node_id, _)| !connections.contains_key(node_id))
.map(|(node_id, node_address)| (node_id.clone(), node_address.clone()))
.collect()
}
}
impl ClusterSessions {
pub fn new(config: &ClusterConfiguration) -> Self {
ClusterSessions {
self_node_id: config.self_key_pair.public().clone(),
acl_storage: config.acl_storage.clone(),
key_storage: config.key_storage.clone(),
encryption_sessions: RwLock::new(BTreeMap::new()),
decryption_sessions: RwLock::new(BTreeMap::new()),
}
}
pub fn new_encryption_session(&self, _master: NodeId, session_id: SessionId, cluster: Arc<Cluster>) -> Result<Arc<EncryptionSessionImpl>, Error> {
let mut encryption_sessions = self.encryption_sessions.write();
if encryption_sessions.contains_key(&session_id) {
return Err(Error::DuplicateSessionId);
}
let session = Arc::new(EncryptionSessionImpl::new(EncryptionSessionParams {
id: session_id.clone(),
self_node_id: self.self_node_id.clone(),
key_storage: self.key_storage.clone(),
cluster: cluster,
}));
let encryption_session = QueuedEncryptionSession {
session: session.clone(),
queue: VecDeque::new()
};
encryption_sessions.insert(session_id, encryption_session);
Ok(session)
}
pub fn remove_encryption_session(&self, session_id: &SessionId) {
self.encryption_sessions.write().remove(session_id);
}
pub fn encryption_session(&self, session_id: &SessionId) -> Option<Arc<EncryptionSessionImpl>> {
self.encryption_sessions.read().get(session_id).map(|s| s.session.clone())
}
pub fn enqueue_encryption_message(&self, session_id: &SessionId, sender: NodeId, message: EncryptionMessage, is_queued_message: bool) {
self.encryption_sessions.write().get_mut(session_id)
.map(|session| if is_queued_message { session.queue.push_front((sender, message)) }
else { session.queue.push_back((sender, message)) });
}
pub fn dequeue_encryption_message(&self, session_id: &SessionId) -> Option<(NodeId, EncryptionMessage)> {
self.encryption_sessions.write().get_mut(session_id)
.and_then(|session| session.queue.pop_front())
}
pub fn new_decryption_session(&self, _master: NodeId, session_id: SessionId, sub_session_id: Secret, cluster: Arc<Cluster>) -> Result<Arc<DecryptionSessionImpl>, Error> {
let mut decryption_sessions = self.decryption_sessions.write();
let session_id = DecryptionSessionId::new(session_id, sub_session_id);
if decryption_sessions.contains_key(&session_id) {
return Err(Error::DuplicateSessionId);
}
let session = Arc::new(DecryptionSessionImpl::new(DecryptionSessionParams {
id: session_id.id.clone(),
access_key: session_id.access_key.clone(),
self_node_id: self.self_node_id.clone(),
encrypted_data: self.key_storage.get(&session_id.id).map_err(|e| Error::KeyStorage(e.into()))?,
acl_storage: self.acl_storage.clone(),
cluster: cluster,
})?);
let decryption_session = QueuedDecryptionSession {
session: session.clone(),
queue: VecDeque::new()
};
decryption_sessions.insert(session_id, decryption_session);
Ok(session)
}
pub fn remove_decryption_session(&self, session_id: &SessionId, sub_session_id: &Secret) {
let session_id = DecryptionSessionId::new(session_id.clone(), sub_session_id.clone());
self.decryption_sessions.write().remove(&session_id);
}
pub fn decryption_session(&self, session_id: &SessionId, sub_session_id: &Secret) -> Option<Arc<DecryptionSessionImpl>> {
let session_id = DecryptionSessionId::new(session_id.clone(), sub_session_id.clone());
self.decryption_sessions.read().get(&session_id).map(|s| s.session.clone())
}
pub fn enqueue_decryption_message(&self, session_id: &SessionId, sub_session_id: &Secret, sender: NodeId, message: DecryptionMessage, is_queued_message: bool) {
let session_id = DecryptionSessionId::new(session_id.clone(), sub_session_id.clone());
self.decryption_sessions.write().get_mut(&session_id)
.map(|session| if is_queued_message { session.queue.push_front((sender, message)) }
else { session.queue.push_back((sender, message)) });
}
pub fn dequeue_decryption_message(&self, session_id: &SessionId, sub_session_id: &Secret) -> Option<(NodeId, DecryptionMessage)> {
let session_id = DecryptionSessionId::new(session_id.clone(), sub_session_id.clone());
self.decryption_sessions.write().get_mut(&session_id)
.and_then(|session| session.queue.pop_front())
}
pub fn on_connection_timeout(&self, node_id: &NodeId) {
for encryption_session in self.encryption_sessions.read().values() {
encryption_session.session.on_session_timeout(node_id);
}
for decryption_session in self.decryption_sessions.read().values() {
decryption_session.session.on_session_timeout(node_id);
}
}
}
impl ClusterData {
pub fn new(handle: &Handle, config: ClusterConfiguration, connections: ClusterConnections, sessions: ClusterSessions) -> Arc<Self> {
Arc::new(ClusterData {
handle: handle.remote().clone(),
pool: CpuPool::new(config.threads),
self_key_pair: config.self_key_pair.clone(),
connections: connections,
sessions: sessions,
config: config,
})
}
/// Get connection to given node.
pub fn connection(&self, node: &NodeId) -> Option<Arc<Connection>> {
self.connections.get(node)
}
/// Spawns a future using thread pool and schedules execution of it with event loop handle.
pub fn spawn<F>(&self, f: F) where F: Future + Send + 'static, F::Item: Send + 'static, F::Error: Send + 'static {
let pool_work = self.pool.spawn(f);
self.handle.spawn(move |_handle| {
pool_work.then(|_| finished(()))
})
}
}
impl Connection {
pub fn new(is_inbound: bool, connection: NetConnection) -> Arc<Connection> {
Arc::new(Connection {
node_id: connection.node_id,
node_address: connection.address,
is_inbound: is_inbound,
stream: connection.stream,
key: connection.key,
last_message_time: Mutex::new(time::Instant::now()),
})
}
pub fn is_inbound(&self) -> bool {
self.is_inbound
}
pub fn node_id(&self) -> &NodeId {
&self.node_id
}
pub fn last_message_time(&self) -> time::Instant {
*self.last_message_time.lock()
}
pub fn set_last_message_time(&self, last_message_time: time::Instant) {
*self.last_message_time.lock() = last_message_time;
}
pub fn node_address(&self) -> &SocketAddr {
&self.node_address
}
pub fn send_message(&self, message: Message) -> WriteMessage<SharedTcpStream> {
write_encrypted_message(self.stream.clone(), &self.key, message)
}
pub fn read_message(&self) -> ReadMessage<SharedTcpStream> {
read_encrypted_message(self.stream.clone(), self.key.clone())
}
}
impl ClusterView {
pub fn new(cluster: Arc<ClusterData>, nodes: BTreeSet<NodeId>) -> Self {
ClusterView {
core: Arc::new(Mutex::new(ClusterViewCore {
cluster: cluster,
nodes: nodes,
})),
}
}
}
impl Cluster for ClusterView {
fn broadcast(&self, message: Message) -> Result<(), Error> {
let core = self.core.lock();
for node in core.nodes.iter().filter(|n| *n != core.cluster.self_key_pair.public()) {
let connection = core.cluster.connection(node).ok_or(Error::NodeDisconnected)?;
core.cluster.spawn(connection.send_message(message.clone()))
}
Ok(())
}
fn send(&self, to: &NodeId, message: Message) -> Result<(), Error> {
let core = self.core.lock();
let connection = core.cluster.connection(to).ok_or(Error::NodeDisconnected)?;
core.cluster.spawn(connection.send_message(message));
Ok(())
}
fn blacklist(&self, _node: &NodeId) {
// TODO: unimplemented!()
}
}
impl ClusterClientImpl {
pub fn new(data: Arc<ClusterData>) -> Self {
ClusterClientImpl {
data: data,
}
}
}
impl ClusterClient for ClusterClientImpl {
fn cluster_state(&self) -> ClusterState {
self.data.connections.cluster_state()
}
fn new_encryption_session(&self, session_id: SessionId, threshold: usize) -> Result<Arc<EncryptionSession>, Error> {
let mut connected_nodes = self.data.connections.connected_nodes();
connected_nodes.insert(self.data.self_key_pair.public().clone());
let cluster = Arc::new(ClusterView::new(self.data.clone(), connected_nodes.clone()));
let session = self.data.sessions.new_encryption_session(self.data.self_key_pair.public().clone(), session_id, cluster)?;
session.initialize(threshold, connected_nodes)?;
Ok(session)
}
fn new_decryption_session(&self, session_id: SessionId, requestor_signature: Signature) -> Result<Arc<DecryptionSession>, Error> {
let mut connected_nodes = self.data.connections.connected_nodes();
connected_nodes.insert(self.data.self_key_pair.public().clone());
let access_key = Random.generate()?.secret().clone();
let cluster = Arc::new(ClusterView::new(self.data.clone(), connected_nodes.clone()));
let session = self.data.sessions.new_decryption_session(self.data.self_key_pair.public().clone(), session_id, access_key, cluster)?;
session.initialize(requestor_signature)?;
Ok(session)
}
}
fn make_socket_address(address: &str, port: u16) -> Result<SocketAddr, Error> {
let ip_address: IpAddr = address.parse().map_err(|_| Error::InvalidNodeAddress)?;
Ok(SocketAddr::new(ip_address, port))
}
#[cfg(test)]
pub mod tests {
use std::sync::Arc;
use std::time;
use std::collections::VecDeque;
use parking_lot::Mutex;
use key_server_cluster::{NodeId, Error};
use tokio_core::reactor::Core;
use ethkey::{Random, Generator};
use key_server_cluster::{NodeId, Error, EncryptionConfiguration, DummyAclStorage, DummyKeyStorage};
use key_server_cluster::message::Message;
use key_server_cluster::cluster::Cluster;
use key_server_cluster::cluster::{Cluster, ClusterCore, ClusterConfiguration};
#[derive(Debug)]
pub struct DummyCluster {
@ -87,4 +946,61 @@ pub mod tests {
fn blacklist(&self, _node: &NodeId) {
}
}
pub fn loop_until<F>(core: &mut Core, timeout: time::Duration, predicate: F) where F: Fn() -> bool {
let start = time::Instant::now();
loop {
core.turn(Some(time::Duration::from_millis(1)));
if predicate() {
break;
}
if time::Instant::now() - start > timeout {
panic!("no result in {:?}", timeout);
}
}
}
pub fn all_connections_established(cluster: &Arc<ClusterCore>) -> bool {
cluster.config().nodes.keys()
.filter(|p| *p != cluster.config().self_key_pair.public())
.all(|p| cluster.connection(p).is_some())
}
pub fn make_clusters(core: &Core, ports_begin: u16, num_nodes: usize) -> Vec<Arc<ClusterCore>> {
let key_pairs: Vec<_> = (0..num_nodes).map(|_| Random.generate().unwrap()).collect();
let cluster_params: Vec<_> = (0..num_nodes).map(|i| ClusterConfiguration {
threads: 1,
self_key_pair: key_pairs[i].clone(),
listen_address: ("127.0.0.1".to_owned(), ports_begin + i as u16),
nodes: key_pairs.iter().enumerate()
.map(|(j, kp)| (kp.public().clone(), ("127.0.0.1".into(), ports_begin + j as u16)))
.collect(),
allow_connecting_to_higher_nodes: false,
encryption_config: EncryptionConfiguration {
key_check_timeout_ms: 10,
},
key_storage: Arc::new(DummyKeyStorage::default()),
acl_storage: Arc::new(DummyAclStorage::default()),
}).collect();
let clusters: Vec<_> = cluster_params.into_iter().enumerate()
.map(|(_, params)| ClusterCore::new(core.handle(), params).unwrap())
.collect();
clusters
}
pub fn run_clusters(clusters: &[Arc<ClusterCore>]) {
for cluster in clusters {
cluster.run().unwrap();
}
}
#[test]
fn cluster_connects_to_other_nodes() {
let mut core = Core::new().unwrap();
let clusters = make_clusters(&core, 6010, 3);
run_clusters(&clusters);
loop_until(&mut core, time::Duration::from_millis(300), || clusters.iter().all(all_connections_established));
}
}

View File

@ -14,15 +14,22 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::cmp::{Ord, PartialOrd, Ordering};
use std::collections::{BTreeSet, BTreeMap};
use std::sync::Arc;
use parking_lot::Mutex;
use parking_lot::{Mutex, Condvar};
use ethkey::{self, Secret, Public, Signature};
use key_server_cluster::{Error, AclStorage, EncryptedData, NodeId, SessionId};
use key_server_cluster::{Error, AclStorage, DocumentKeyShare, NodeId, SessionId};
use key_server_cluster::cluster::Cluster;
use key_server_cluster::math;
use key_server_cluster::message::{Message, InitializeDecryptionSession, ConfirmDecryptionInitialization,
RequestPartialDecryption, PartialDecryption};
use key_server_cluster::message::{Message, DecryptionMessage, InitializeDecryptionSession, ConfirmDecryptionInitialization,
RequestPartialDecryption, PartialDecryption, DecryptionSessionError};
/// Decryption session API.
pub trait Session: Send + Sync + 'static {
/// Wait until session is completed. Returns distributely restored secret key.
fn wait(&self) -> Result<Public, Error>;
}
/// Distributed decryption session.
/// Based on "ECDKG: A Distributed Key Generation Protocol Based on Elliptic Curve Discrete Logarithm" paper:
@ -32,7 +39,7 @@ use key_server_cluster::message::{Message, InitializeDecryptionSession, ConfirmD
/// 2) ACL check: all nodes which have received the request are querying ACL-contract to check if requestor has access to the document
/// 3) partial decryption: every node which has succussfully checked access for the requestor do a partial decryption
/// 4) decryption: master node receives all partial decryptions of the secret and restores the secret
pub struct Session {
pub struct SessionImpl {
/// Encryption session id.
id: SessionId,
/// Decryption session access key.
@ -40,25 +47,36 @@ pub struct Session {
/// Public identifier of this node.
self_node_id: NodeId,
/// Encrypted data.
encrypted_data: EncryptedData,
encrypted_data: DocumentKeyShare,
/// ACL storate to check access to the resource.
acl_storage: Arc<AclStorage>,
/// Cluster which allows this node to send messages to other nodes in the cluster.
cluster: Arc<Cluster>,
/// SessionImpl completion condvar.
completed: Condvar,
/// Mutable session data.
data: Mutex<SessionData>,
}
/// Session creation parameters
pub struct SessionParams {
/// Session identifier.
/// Decryption session Id.
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct DecryptionSessionId {
/// Encryption session id.
pub id: SessionId,
/// Session access key.
/// Decryption session access key.
pub access_key: Secret,
}
/// SessionImpl creation parameters
pub struct SessionParams {
/// SessionImpl identifier.
pub id: SessionId,
/// SessionImpl access key.
pub access_key: Secret,
/// Id of node, on which this session is running.
pub self_node_id: Public,
/// Encrypted data (result of running encryption_session::Session).
pub encrypted_data: EncryptedData,
/// Encrypted data (result of running encryption_session::SessionImpl).
pub encrypted_data: DocumentKeyShare,
/// ACL storage.
pub acl_storage: Arc<AclStorage>,
/// Cluster
@ -91,16 +109,11 @@ struct SessionData {
/// === Values, filled during final decryption ===
/// Decrypted secret
decrypted_secret: Option<Public>,
}
#[derive(Debug)]
struct NodeData {
/// Node-generated shadow point.
shadow_point: Option<Public>,
decrypted_secret: Option<Result<Public, Error>>,
}
#[derive(Debug, Clone, PartialEq)]
/// Decryption session data.
pub enum SessionState {
/// Every node starts in this state.
WaitingForInitialization,
@ -116,18 +129,19 @@ pub enum SessionState {
Failed,
}
impl Session {
impl SessionImpl {
/// Create new decryption session.
pub fn new(params: SessionParams) -> Result<Self, Error> {
check_encrypted_data(&params.self_node_id, &params.encrypted_data)?;
Ok(Session {
Ok(SessionImpl {
id: params.id,
access_key: params.access_key,
self_node_id: params.self_node_id,
encrypted_data: params.encrypted_data,
acl_storage: params.acl_storage,
cluster: params.cluster,
completed: Condvar::new(),
data: Mutex::new(SessionData {
state: SessionState::WaitingForInitialization,
master: None,
@ -146,19 +160,22 @@ impl Session {
&self.self_node_id
}
#[cfg(test)]
/// Get this session access key.
pub fn access_key(&self) -> &Secret {
&self.access_key
}
#[cfg(test)]
/// Get current session state.
pub fn state(&self) -> SessionState {
self.data.lock().state.clone()
}
#[cfg(test)]
/// Get decrypted secret
pub fn decrypted_secret(&self) -> Option<Public> {
self.data.lock().decrypted_secret.clone()
self.data.lock().decrypted_secret.clone().and_then(|r| r.ok())
}
/// Initialize decryption session.
@ -188,15 +205,20 @@ impl Session {
// not enough nodes => pass initialization message to all other nodes
SessionState::WaitingForInitializationConfirm => {
for node in self.encrypted_data.id_numbers.keys().filter(|n| *n != self.node()) {
self.cluster.send(node, Message::InitializeDecryptionSession(InitializeDecryptionSession {
session: self.id.clone(),
sub_session: self.access_key.clone(),
requestor_signature: requestor_signature.clone(),
}))?;
self.cluster.send(node, Message::Decryption(DecryptionMessage::InitializeDecryptionSession(InitializeDecryptionSession {
session: self.id.clone().into(),
sub_session: self.access_key.clone().into(),
requestor_signature: requestor_signature.clone().into(),
})))?;
}
},
// we can decrypt data on our own
SessionState::WaitingForPartialDecryption => unimplemented!(),
SessionState::WaitingForPartialDecryption => {
data.confirmed_nodes.insert(self.node().clone());
SessionImpl::start_waiting_for_partial_decryption(self.node().clone(), self.id.clone(), self.access_key.clone(), &self.cluster, &self.encrypted_data, &mut *data)?;
SessionImpl::do_decryption(self.access_key.clone(), &self.encrypted_data, &mut *data)?;
self.completed.notify_all();
},
// we can not decrypt data
SessionState::Failed => (),
// cannot reach other states
@ -207,9 +229,9 @@ impl Session {
}
/// When session initialization message is received.
pub fn on_initialize_session(&self, sender: NodeId, message: InitializeDecryptionSession) -> Result<(), Error> {
debug_assert!(self.id == message.session);
debug_assert!(self.access_key == message.sub_session);
pub fn on_initialize_session(&self, sender: NodeId, message: &InitializeDecryptionSession) -> Result<(), Error> {
debug_assert!(self.id == *message.session);
debug_assert!(self.access_key == *message.sub_session);
debug_assert!(&sender != self.node());
let mut data = self.data.lock();
@ -230,17 +252,17 @@ impl Session {
// respond to master node
data.master = Some(sender.clone());
self.cluster.send(&sender, Message::ConfirmDecryptionInitialization(ConfirmDecryptionInitialization {
session: self.id.clone(),
sub_session: self.access_key.clone(),
self.cluster.send(&sender, Message::Decryption(DecryptionMessage::ConfirmDecryptionInitialization(ConfirmDecryptionInitialization {
session: self.id.clone().into(),
sub_session: self.access_key.clone().into(),
is_confirmed: is_requestor_allowed_to_read,
}))
})))
}
/// When session initialization confirmation message is reeived.
pub fn on_confirm_initialization(&self, sender: NodeId, message: ConfirmDecryptionInitialization) -> Result<(), Error> {
debug_assert!(self.id == message.session);
debug_assert!(self.access_key == message.sub_session);
pub fn on_confirm_initialization(&self, sender: NodeId, message: &ConfirmDecryptionInitialization) -> Result<(), Error> {
debug_assert!(self.id == *message.session);
debug_assert!(self.access_key == *message.sub_session);
debug_assert!(&sender != self.node());
let mut data = self.data.lock();
@ -260,26 +282,8 @@ impl Session {
// we do not yet have enough nodes for decryption
SessionState::WaitingForInitializationConfirm => Ok(()),
// we have enough nodes for decryption
SessionState::WaitingForPartialDecryption => {
let confirmed_nodes: BTreeSet<_> = data.confirmed_nodes.clone();
for node in data.confirmed_nodes.iter().filter(|n| n != &self.node()) {
self.cluster.send(node, Message::RequestPartialDecryption(RequestPartialDecryption {
session: self.id.clone(),
sub_session: self.access_key.clone(),
nodes: confirmed_nodes.clone(),
}))?;
}
assert!(data.confirmed_nodes.remove(self.node()));
let shadow_point = {
let requestor = data.requestor.as_ref().expect("requestor public is filled during initialization; WaitingForPartialDecryption follows initialization; qed");
do_partial_decryption(self.node(), &requestor, &data.confirmed_nodes, &self.access_key, &self.encrypted_data)?
};
data.shadow_points.insert(self.node().clone(), shadow_point);
Ok(())
},
SessionState::WaitingForPartialDecryption =>
SessionImpl::start_waiting_for_partial_decryption(self.node().clone(), self.id.clone(), self.access_key.clone(), &self.cluster, &self.encrypted_data, &mut *data),
// we can not have enough nodes for decryption
SessionState::Failed => Ok(()),
// cannot reach other states
@ -288,9 +292,9 @@ impl Session {
}
/// When partial decryption is requested.
pub fn on_partial_decryption_requested(&self, sender: NodeId, message: RequestPartialDecryption) -> Result<(), Error> {
debug_assert!(self.id == message.session);
debug_assert!(self.access_key == message.sub_session);
pub fn on_partial_decryption_requested(&self, sender: NodeId, message: &RequestPartialDecryption) -> Result<(), Error> {
debug_assert!(self.id == *message.session);
debug_assert!(self.access_key == *message.sub_session);
debug_assert!(&sender != self.node());
// check message
@ -311,13 +315,13 @@ impl Session {
// calculate shadow point
let shadow_point = {
let requestor = data.requestor.as_ref().expect("requestor public is filled during initialization; WaitingForPartialDecryptionRequest follows initialization; qed");
do_partial_decryption(self.node(), &requestor, &message.nodes, &self.access_key, &self.encrypted_data)?
do_partial_decryption(self.node(), &requestor, &message.nodes.iter().cloned().map(Into::into).collect(), &self.access_key, &self.encrypted_data)?
};
self.cluster.send(&sender, Message::PartialDecryption(PartialDecryption {
session: self.id.clone(),
sub_session: self.access_key.clone(),
shadow_point: shadow_point,
}))?;
self.cluster.send(&sender, Message::Decryption(DecryptionMessage::PartialDecryption(PartialDecryption {
session: self.id.clone().into(),
sub_session: self.access_key.clone().into(),
shadow_point: shadow_point.into(),
})))?;
// update sate
data.state = SessionState::Finished;
@ -326,9 +330,9 @@ impl Session {
}
/// When partial decryption is received.
pub fn on_partial_decryption(&self, sender: NodeId, message: PartialDecryption) -> Result<(), Error> {
debug_assert!(self.id == message.session);
debug_assert!(self.access_key == message.sub_session);
pub fn on_partial_decryption(&self, sender: NodeId, message: &PartialDecryption) -> Result<(), Error> {
debug_assert!(self.id == *message.session);
debug_assert!(self.access_key == *message.sub_session);
debug_assert!(&sender != self.node());
let mut data = self.data.lock();
@ -341,24 +345,113 @@ impl Session {
if !data.confirmed_nodes.remove(&sender) {
return Err(Error::InvalidStateForRequest);
}
data.shadow_points.insert(sender, message.shadow_point);
data.shadow_points.insert(sender, message.shadow_point.clone().into());
// check if we have enough shadow points to decrypt the secret
if data.shadow_points.len() != self.encrypted_data.threshold + 1 {
return Ok(());
}
SessionImpl::do_decryption(self.access_key.clone(), &self.encrypted_data, &mut *data)?;
self.completed.notify_all();
Ok(())
}
/// When error has occured on another node.
pub fn on_session_error(&self, sender: NodeId, message: &DecryptionSessionError) {
warn!("{}: decryption session error: {:?} from {}", self.node(), message, sender);
let mut data = self.data.lock();
data.state = SessionState::Failed;
data.decrypted_secret = Some(Err(Error::Io(message.error.clone())));
self.completed.notify_all();
}
/// When session timeout has occured.
pub fn on_session_timeout(&self, _node: &NodeId) {
warn!("{}: decryption session timeout", self.node());
let mut data = self.data.lock();
// TODO: check that node is a part of decryption process
data.state = SessionState::Failed;
data.decrypted_secret = Some(Err(Error::Io("session expired".into())));
self.completed.notify_all();
}
fn start_waiting_for_partial_decryption(self_node_id: NodeId, session_id: SessionId, access_key: Secret, cluster: &Arc<Cluster>, encrypted_data: &DocumentKeyShare, data: &mut SessionData) -> Result<(), Error> {
let confirmed_nodes: BTreeSet<_> = data.confirmed_nodes.clone();
for node in data.confirmed_nodes.iter().filter(|n| n != &&self_node_id) {
cluster.send(node, Message::Decryption(DecryptionMessage::RequestPartialDecryption(RequestPartialDecryption {
session: session_id.clone().into(),
sub_session: access_key.clone().into(),
nodes: confirmed_nodes.iter().cloned().map(Into::into).collect(),
})))?;
}
assert!(data.confirmed_nodes.remove(&self_node_id));
let shadow_point = {
let requestor = data.requestor.as_ref().expect("requestor public is filled during initialization; WaitingForPartialDecryption follows initialization; qed");
do_partial_decryption(&self_node_id, &requestor, &data.confirmed_nodes, &access_key, &encrypted_data)?
};
data.shadow_points.insert(self_node_id.clone(), shadow_point);
Ok(())
}
fn do_decryption(access_key: Secret, encrypted_data: &DocumentKeyShare, data: &mut SessionData) -> Result<(), Error> {
// decrypt the secret using shadow points
let joint_shadow_point = math::compute_joint_shadow_point(data.shadow_points.values())?;
let decrypted_secret = math::decrypt_with_joint_shadow(&self.access_key, &self.encrypted_data.encrypted_point, &joint_shadow_point)?;
data.decrypted_secret = Some(decrypted_secret);
let decrypted_secret = math::decrypt_with_joint_shadow(encrypted_data.threshold, &access_key, &encrypted_data.encrypted_point, &joint_shadow_point)?;
data.decrypted_secret = Some(Ok(decrypted_secret));
// switch to completed state
data.state = SessionState::Finished;
Ok(())
}
}
fn check_encrypted_data(self_node_id: &Public, encrypted_data: &EncryptedData) -> Result<(), Error> {
impl Session for SessionImpl {
fn wait(&self) -> Result<Public, Error> {
let mut data = self.data.lock();
if !data.decrypted_secret.is_some() {
self.completed.wait(&mut data);
}
data.decrypted_secret.as_ref()
.expect("checked above or waited for completed; completed is only signaled when decrypted_secret.is_some(); qed")
.clone()
}
}
impl DecryptionSessionId {
/// Create new decryption session Id.
pub fn new(session_id: SessionId, sub_session_id: Secret) -> Self {
DecryptionSessionId {
id: session_id,
access_key: sub_session_id,
}
}
}
impl PartialOrd for DecryptionSessionId {
fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
Some(self.cmp(other))
}
}
impl Ord for DecryptionSessionId {
fn cmp(&self, other: &Self) -> Ordering {
match self.id.cmp(&other.id) {
Ordering::Equal => self.access_key.cmp(&other.access_key),
r @ _ => r,
}
}
}
fn check_encrypted_data(self_node_id: &Public, encrypted_data: &DocumentKeyShare) -> Result<(), Error> {
use key_server_cluster::encryption_session::{check_cluster_nodes, check_threshold};
let nodes = encrypted_data.id_numbers.keys().cloned().collect();
@ -368,7 +461,7 @@ fn check_encrypted_data(self_node_id: &Public, encrypted_data: &EncryptedData) -
Ok(())
}
fn process_initialization_response(encrypted_data: &EncryptedData, data: &mut SessionData, node: &NodeId, check_result: bool) -> Result<(), Error> {
fn process_initialization_response(encrypted_data: &DocumentKeyShare, data: &mut SessionData, node: &NodeId, check_result: bool) -> Result<(), Error> {
if !data.requested_nodes.remove(node) {
return Err(Error::InvalidMessage);
}
@ -395,7 +488,7 @@ fn process_initialization_response(encrypted_data: &EncryptedData, data: &mut Se
Ok(())
}
fn do_partial_decryption(node: &NodeId, _requestor_public: &Public, participants: &BTreeSet<NodeId>, access_key: &Secret, encrypted_data: &EncryptedData) -> Result<Public, Error> {
fn do_partial_decryption(node: &NodeId, _requestor_public: &Public, participants: &BTreeSet<NodeId>, access_key: &Secret, encrypted_data: &DocumentKeyShare) -> Result<Public, Error> {
let node_id_number = &encrypted_data.id_numbers[node];
let node_secret_share = &encrypted_data.secret_share;
let other_id_numbers = participants.iter()
@ -409,43 +502,42 @@ fn do_partial_decryption(node: &NodeId, _requestor_public: &Public, participants
#[cfg(test)]
mod tests {
use std::sync::Arc;
use std::str::FromStr;
use std::collections::BTreeMap;
use super::super::super::acl_storage::DummyAclStorage;
use ethkey::{self, Random, Generator, Public, Secret};
use key_server_cluster::{NodeId, EncryptedData, SessionId, Error};
use key_server_cluster::{NodeId, DocumentKeyShare, SessionId, Error};
use key_server_cluster::cluster::tests::DummyCluster;
use key_server_cluster::decryption_session::{Session, SessionParams, SessionState};
use key_server_cluster::message::{self, Message};
use key_server_cluster::decryption_session::{SessionImpl, SessionParams, SessionState};
use key_server_cluster::message::{self, Message, DecryptionMessage};
const SECRET_PLAIN: &'static str = "d2b57ae7619e070af0af6bc8c703c0cd27814c54d5d6a999cacac0da34ede279ca0d9216e85991029e54e2f0c92ee0bd30237725fa765cbdbfc4529489864c5f";
fn prepare_decryption_sessions() -> (Vec<Arc<DummyCluster>>, Vec<Arc<DummyAclStorage>>, Vec<Session>) {
fn prepare_decryption_sessions() -> (Vec<Arc<DummyCluster>>, Vec<Arc<DummyAclStorage>>, Vec<SessionImpl>) {
// prepare encrypted data + cluster configuration for scheme 4-of-5
let session_id = SessionId::default();
let access_key = Random.generate().unwrap().secret().clone();
let secret_shares = vec![
Secret::from_str("834cb736f02d9c968dfaf0c37658a1d86ff140554fc8b59c9fdad5a8cf810eec").unwrap(),
Secret::from_str("5a3c1d90fafafa66bb808bcc464354a98b05e6b2c95b5f609d4511cdd1b17a0b").unwrap(),
Secret::from_str("71bf61e7848e08e3a8486c308ce521bdacfebcf9116a0151447eb301f3a2d0e9").unwrap(),
Secret::from_str("80c0e5e2bea66fa9b2e07f7ce09630a9563e8242446d5ee63221feb09c4338f4").unwrap(),
Secret::from_str("c06546b5669877ba579ca437a5602e89425c53808c708d44ccd6afcaa4610fad").unwrap(),
let secret_shares: Vec<Secret> = vec![
"834cb736f02d9c968dfaf0c37658a1d86ff140554fc8b59c9fdad5a8cf810eec".parse().unwrap(),
"5a3c1d90fafafa66bb808bcc464354a98b05e6b2c95b5f609d4511cdd1b17a0b".parse().unwrap(),
"71bf61e7848e08e3a8486c308ce521bdacfebcf9116a0151447eb301f3a2d0e9".parse().unwrap(),
"80c0e5e2bea66fa9b2e07f7ce09630a9563e8242446d5ee63221feb09c4338f4".parse().unwrap(),
"c06546b5669877ba579ca437a5602e89425c53808c708d44ccd6afcaa4610fad".parse().unwrap(),
];
let id_numbers: Vec<(NodeId, Secret)> = vec![
("b486d3840218837b035c66196ecb15e6b067ca20101e11bd5e626288ab6806ecc70b8307012626bd512bad1559112d11d21025cef48cc7a1d2f3976da08f36c8".into(),
Secret::from_str("281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c").unwrap()),
"281b6bf43cb86d0dc7b98e1b7def4a80f3ce16d28d2308f934f116767306f06c".parse().unwrap()),
("1395568277679f7f583ab7c0992da35f26cde57149ee70e524e49bdae62db3e18eb96122501e7cbb798b784395d7bb5a499edead0706638ad056d886e56cf8fb".into(),
Secret::from_str("00125d85a05e5e63e214cb60fe63f132eec8a103aa29266b7e6e6c5b7597230b").unwrap()),
"00125d85a05e5e63e214cb60fe63f132eec8a103aa29266b7e6e6c5b7597230b".parse().unwrap()),
("99e82b163b062d55a64085bacfd407bb55f194ba5fb7a1af9c34b84435455520f1372e0e650a4f91aed0058cb823f62146ccb5599c8d13372c300dea866b69fc".into(),
Secret::from_str("f43ac0fba42a5b6ed95707d2244659e89ba877b1c9b82c0d0a9dcf834e80fc62").unwrap()),
"f43ac0fba42a5b6ed95707d2244659e89ba877b1c9b82c0d0a9dcf834e80fc62".parse().unwrap()),
("7e05df9dd077ec21ed4bc45c9fe9e0a43d65fa4be540630de615ced5e95cf5c3003035eb713317237d7667feeeb64335525158f5f7411f67aca9645169ea554c".into(),
Secret::from_str("5a324938dfb2516800487d25ab7289ba8ec38811f77c3df602e4e65e3c9acd9f").unwrap()),
"5a324938dfb2516800487d25ab7289ba8ec38811f77c3df602e4e65e3c9acd9f".parse().unwrap()),
("321977760d1d8e15b047a309e4c7fe6f355c10bb5a06c68472b676926427f69f229024fa2692c10da167d14cdc77eb95d0fce68af0a0f704f0d3db36baa83bb2".into(),
Secret::from_str("12cf422d50002d04e52bd4906fd7f5f235f051ca36abfe37e061f8da248008d8").unwrap()),
"12cf422d50002d04e52bd4906fd7f5f235f051ca36abfe37e061f8da248008d8".parse().unwrap()),
];
let common_point: Public = "6962be696e1bcbba8e64cc7fddf140f854835354b5804f3bb95ae5a2799130371b589a131bd39699ac7174ccb35fc4342dab05331202209582fc8f3a40916ab0".into();
let encrypted_point: Public = "b07031982bde9890e12eff154765f03c56c3ab646ad47431db5dd2d742a9297679c4c65b998557f8008469afd0c43d40b6c5f6c6a1c7354875da4115237ed87a".into();
let encrypted_datas: Vec<_> = (0..5).map(|i| EncryptedData {
let encrypted_datas: Vec<_> = (0..5).map(|i| DocumentKeyShare {
threshold: 3,
id_numbers: id_numbers.clone().into_iter().collect(),
secret_share: secret_shares[i].clone(),
@ -454,7 +546,7 @@ mod tests {
}).collect();
let acl_storages: Vec<_> = (0..5).map(|_| Arc::new(DummyAclStorage::default())).collect();
let clusters: Vec<_> = (0..5).map(|i| Arc::new(DummyCluster::new(id_numbers.iter().nth(i).clone().unwrap().0))).collect();
let sessions: Vec<_> = (0..5).map(|i| Session::new(SessionParams {
let sessions: Vec<_> = (0..5).map(|i| SessionImpl::new(SessionParams {
id: session_id.clone(),
access_key: access_key.clone(),
self_node_id: id_numbers.iter().nth(i).clone().unwrap().0,
@ -466,11 +558,11 @@ mod tests {
(clusters, acl_storages, sessions)
}
fn do_messages_exchange(clusters: &[Arc<DummyCluster>], sessions: &[Session]) {
fn do_messages_exchange(clusters: &[Arc<DummyCluster>], sessions: &[SessionImpl]) {
do_messages_exchange_until(clusters, sessions, |_, _, _| false);
}
fn do_messages_exchange_until<F>(clusters: &[Arc<DummyCluster>], sessions: &[Session], mut cond: F) where F: FnMut(&NodeId, &NodeId, &Message) -> bool {
fn do_messages_exchange_until<F>(clusters: &[Arc<DummyCluster>], sessions: &[SessionImpl], mut cond: F) where F: FnMut(&NodeId, &NodeId, &Message) -> bool {
while let Some((from, to, message)) = clusters.iter().filter_map(|c| c.take_message().map(|(to, msg)| (c.node(), to, msg))).next() {
let session = &sessions[sessions.iter().position(|s| s.node() == &to).unwrap()];
if cond(&from, &to, &message) {
@ -478,10 +570,10 @@ mod tests {
}
match message {
Message::InitializeDecryptionSession(message) => session.on_initialize_session(from, message).unwrap(),
Message::ConfirmDecryptionInitialization(message) => session.on_confirm_initialization(from, message).unwrap(),
Message::RequestPartialDecryption(message) => session.on_partial_decryption_requested(from, message).unwrap(),
Message::PartialDecryption(message) => session.on_partial_decryption(from, message).unwrap(),
Message::Decryption(DecryptionMessage::InitializeDecryptionSession(message)) => session.on_initialize_session(from, &message).unwrap(),
Message::Decryption(DecryptionMessage::ConfirmDecryptionInitialization(message)) => session.on_confirm_initialization(from, &message).unwrap(),
Message::Decryption(DecryptionMessage::RequestPartialDecryption(message)) => session.on_partial_decryption_requested(from, &message).unwrap(),
Message::Decryption(DecryptionMessage::PartialDecryption(message)) => session.on_partial_decryption(from, &message).unwrap(),
_ => panic!("unexpected"),
}
}
@ -492,11 +584,11 @@ mod tests {
let mut nodes = BTreeMap::new();
let self_node_id = Random.generate().unwrap().public().clone();
nodes.insert(self_node_id, Random.generate().unwrap().secret().clone());
match Session::new(SessionParams {
match SessionImpl::new(SessionParams {
id: SessionId::default(),
access_key: Random.generate().unwrap().secret().clone(),
self_node_id: self_node_id.clone(),
encrypted_data: EncryptedData {
encrypted_data: DocumentKeyShare {
threshold: 0,
id_numbers: nodes,
secret_share: Random.generate().unwrap().secret().clone(),
@ -517,11 +609,11 @@ mod tests {
let self_node_id = Random.generate().unwrap().public().clone();
nodes.insert(Random.generate().unwrap().public().clone(), Random.generate().unwrap().secret().clone());
nodes.insert(Random.generate().unwrap().public().clone(), Random.generate().unwrap().secret().clone());
match Session::new(SessionParams {
match SessionImpl::new(SessionParams {
id: SessionId::default(),
access_key: Random.generate().unwrap().secret().clone(),
self_node_id: self_node_id.clone(),
encrypted_data: EncryptedData {
encrypted_data: DocumentKeyShare {
threshold: 0,
id_numbers: nodes,
secret_share: Random.generate().unwrap().secret().clone(),
@ -542,11 +634,11 @@ mod tests {
let self_node_id = Random.generate().unwrap().public().clone();
nodes.insert(self_node_id.clone(), Random.generate().unwrap().secret().clone());
nodes.insert(Random.generate().unwrap().public().clone(), Random.generate().unwrap().secret().clone());
match Session::new(SessionParams {
match SessionImpl::new(SessionParams {
id: SessionId::default(),
access_key: Random.generate().unwrap().secret().clone(),
self_node_id: self_node_id.clone(),
encrypted_data: EncryptedData {
encrypted_data: DocumentKeyShare {
threshold: 2,
id_numbers: nodes,
secret_share: Random.generate().unwrap().secret().clone(),
@ -572,70 +664,70 @@ mod tests {
fn fails_to_accept_initialization_when_already_initialized() {
let (_, _, sessions) = prepare_decryption_sessions();
assert_eq!(sessions[0].initialize(ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap()).unwrap(), ());
assert_eq!(sessions[0].on_initialize_session(sessions[1].node().clone(), message::InitializeDecryptionSession {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
requestor_signature: ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap(),
assert_eq!(sessions[0].on_initialize_session(sessions[1].node().clone(), &message::InitializeDecryptionSession {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
requestor_signature: ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap().into(),
}).unwrap_err(), Error::InvalidStateForRequest);
}
#[test]
fn fails_to_partial_decrypt_if_not_waiting() {
let (_, _, sessions) = prepare_decryption_sessions();
assert_eq!(sessions[1].on_initialize_session(sessions[0].node().clone(), message::InitializeDecryptionSession {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
requestor_signature: ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap(),
assert_eq!(sessions[1].on_initialize_session(sessions[0].node().clone(), &message::InitializeDecryptionSession {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
requestor_signature: ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap().into(),
}).unwrap(), ());
assert_eq!(sessions[1].on_partial_decryption_requested(sessions[0].node().clone(), message::RequestPartialDecryption {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
nodes: sessions.iter().map(|s| s.node().clone()).take(4).collect(),
assert_eq!(sessions[1].on_partial_decryption_requested(sessions[0].node().clone(), &message::RequestPartialDecryption {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
nodes: sessions.iter().map(|s| s.node().clone().into()).take(4).collect(),
}).unwrap(), ());
assert_eq!(sessions[1].on_partial_decryption_requested(sessions[0].node().clone(), message::RequestPartialDecryption {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
nodes: sessions.iter().map(|s| s.node().clone()).take(4).collect(),
assert_eq!(sessions[1].on_partial_decryption_requested(sessions[0].node().clone(), &message::RequestPartialDecryption {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
nodes: sessions.iter().map(|s| s.node().clone().into()).take(4).collect(),
}).unwrap_err(), Error::InvalidStateForRequest);
}
#[test]
fn fails_to_partial_decrypt_if_requested_by_slave() {
let (_, _, sessions) = prepare_decryption_sessions();
assert_eq!(sessions[1].on_initialize_session(sessions[0].node().clone(), message::InitializeDecryptionSession {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
requestor_signature: ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap(),
assert_eq!(sessions[1].on_initialize_session(sessions[0].node().clone(), &message::InitializeDecryptionSession {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
requestor_signature: ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap().into(),
}).unwrap(), ());
assert_eq!(sessions[1].on_partial_decryption_requested(sessions[2].node().clone(), message::RequestPartialDecryption {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
nodes: sessions.iter().map(|s| s.node().clone()).take(4).collect(),
assert_eq!(sessions[1].on_partial_decryption_requested(sessions[2].node().clone(), &message::RequestPartialDecryption {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
nodes: sessions.iter().map(|s| s.node().clone().into()).take(4).collect(),
}).unwrap_err(), Error::InvalidMessage);
}
#[test]
fn fails_to_partial_decrypt_if_wrong_number_of_nodes_participating() {
let (_, _, sessions) = prepare_decryption_sessions();
assert_eq!(sessions[1].on_initialize_session(sessions[0].node().clone(), message::InitializeDecryptionSession {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
requestor_signature: ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap(),
assert_eq!(sessions[1].on_initialize_session(sessions[0].node().clone(), &message::InitializeDecryptionSession {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
requestor_signature: ethkey::sign(Random.generate().unwrap().secret(), &SessionId::default()).unwrap().into(),
}).unwrap(), ());
assert_eq!(sessions[1].on_partial_decryption_requested(sessions[0].node().clone(), message::RequestPartialDecryption {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
nodes: sessions.iter().map(|s| s.node().clone()).take(2).collect(),
assert_eq!(sessions[1].on_partial_decryption_requested(sessions[0].node().clone(), &message::RequestPartialDecryption {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
nodes: sessions.iter().map(|s| s.node().clone().into()).take(2).collect(),
}).unwrap_err(), Error::InvalidMessage);
}
#[test]
fn fails_to_accept_partial_decrypt_if_not_waiting() {
let (_, _, sessions) = prepare_decryption_sessions();
assert_eq!(sessions[0].on_partial_decryption(sessions[1].node().clone(), message::PartialDecryption {
session: SessionId::default(),
sub_session: sessions[0].access_key().clone(),
shadow_point: Random.generate().unwrap().public().clone(),
assert_eq!(sessions[0].on_partial_decryption(sessions[1].node().clone(), &message::PartialDecryption {
session: SessionId::default().into(),
sub_session: sessions[0].access_key().clone().into(),
shadow_point: Random.generate().unwrap().public().clone().into(),
}).unwrap_err(), Error::InvalidStateForRequest);
}
@ -647,7 +739,7 @@ mod tests {
let mut pd_from = None;
let mut pd_msg = None;
do_messages_exchange_until(&clusters, &sessions, |from, _, msg| match msg {
&Message::PartialDecryption(ref msg) => {
&Message::Decryption(DecryptionMessage::PartialDecryption(ref msg)) => {
pd_from = Some(from.clone());
pd_msg = Some(msg.clone());
true
@ -655,8 +747,8 @@ mod tests {
_ => false,
});
assert_eq!(sessions[0].on_partial_decryption(pd_from.clone().unwrap(), pd_msg.clone().unwrap()).unwrap(), ());
assert_eq!(sessions[0].on_partial_decryption(pd_from.unwrap(), pd_msg.unwrap()).unwrap_err(), Error::InvalidStateForRequest);
assert_eq!(sessions[0].on_partial_decryption(pd_from.clone().unwrap(), &pd_msg.clone().unwrap()).unwrap(), ());
assert_eq!(sessions[0].on_partial_decryption(pd_from.unwrap(), &pd_msg.unwrap()).unwrap_err(), Error::InvalidStateForRequest);
}
#[test]
@ -704,4 +796,9 @@ mod tests {
// 3) 0 sessions have decrypted key value
assert!(sessions.iter().all(|s| s.decrypted_secret().is_none()));
}
#[test]
fn decryption_session_works_over_network() {
// TODO
}
}

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@ -0,0 +1,85 @@
// Copyright 2015-2017 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/>.
use std::io;
use std::time::Duration;
use futures::{Future, Select, BoxFuture, Poll, Async};
use tokio_core::reactor::{Handle, Timeout};
type DeadlineBox<F> where F: Future = BoxFuture<DeadlineStatus<F::Item>, F::Error>;
/// Complete a passed future or fail if it is not completed within timeout.
pub fn deadline<F, T>(duration: Duration, handle: &Handle, future: F) -> Result<Deadline<F>, io::Error>
where F: Future<Item = T, Error = io::Error> + Send + 'static, T: 'static {
let timeout = try!(Timeout::new(duration, handle)).map(|_| DeadlineStatus::Timeout).boxed();
let future = future.map(DeadlineStatus::Meet).boxed();
let deadline = Deadline {
future: timeout.select(future),
};
Ok(deadline)
}
#[derive(Debug, PartialEq)]
/// Deadline future completion status.
pub enum DeadlineStatus<T> {
/// Completed a future.
Meet(T),
/// Faled with timeout.
Timeout,
}
/// Future, which waits for passed future completion within given period, or fails with timeout.
pub struct Deadline<F> where F: Future {
future: Select<DeadlineBox<F>, DeadlineBox<F>>,
}
impl<F, T> Future for Deadline<F> where F: Future<Item = T, Error = io::Error> {
type Item = DeadlineStatus<T>;
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.future.poll() {
Ok(Async::Ready((result, _other))) => Ok(Async::Ready(result)),
Ok(Async::NotReady) => Ok(Async::NotReady),
Err((err, _other)) => Err(err),
}
}
}
#[cfg(test)]
mod tests {
use std::io;
use std::time::Duration;
use futures::{Future, empty, done};
use tokio_core::reactor::Core;
use super::{deadline, DeadlineStatus};
//#[test] TODO: not working
fn _deadline_timeout_works() {
let mut core = Core::new().unwrap();
let deadline = deadline(Duration::from_millis(1), &core.handle(), empty::<(), io::Error>()).unwrap();
core.turn(Some(Duration::from_millis(3)));
assert_eq!(deadline.wait().unwrap(), DeadlineStatus::Timeout);
}
#[test]
fn deadline_result_works() {
let mut core = Core::new().unwrap();
let deadline = deadline(Duration::from_millis(1000), &core.handle(), done(Ok(()))).unwrap();
core.turn(Some(Duration::from_millis(3)));
assert_eq!(deadline.wait().unwrap(), DeadlineStatus::Meet(()));
}
}

View File

@ -0,0 +1,320 @@
// Copyright 2015-2017 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/>.
use std::io;
use std::collections::BTreeSet;
use futures::{Future, Poll, Async};
use ethkey::{Random, Generator, KeyPair, Secret, sign, verify_public};
use util::H256;
use key_server_cluster::{NodeId, Error};
use key_server_cluster::message::{Message, ClusterMessage, NodePublicKey, NodePrivateKeySignature};
use key_server_cluster::io::{write_message, write_encrypted_message, WriteMessage, ReadMessage,
read_message, compute_shared_key};
/// Start handshake procedure with another node from the cluster.
pub fn handshake<A>(a: A, self_key_pair: KeyPair, trusted_nodes: BTreeSet<NodeId>) -> Handshake<A> where A: io::Write + io::Read {
let self_confirmation_plain = Random.generate().map(|kp| *kp.secret().clone()).map_err(Into::into);
handshake_with_plain_confirmation(a, self_confirmation_plain, self_key_pair, trusted_nodes)
}
/// Start handshake procedure with another node from the cluster and given plain confirmation.
pub fn handshake_with_plain_confirmation<A>(a: A, self_confirmation_plain: Result<H256, Error>, self_key_pair: KeyPair, trusted_nodes: BTreeSet<NodeId>) -> Handshake<A> where A: io::Write + io::Read {
let (error, state) = match self_confirmation_plain.clone()
.and_then(|c| Handshake::<A>::make_public_key_message(self_key_pair.public().clone(), c)) {
Ok(message) => (None, HandshakeState::SendPublicKey(write_message(a, message))),
Err(err) => (Some((a, Err(err))), HandshakeState::Finished),
};
Handshake {
is_active: true,
error: error,
state: state,
self_key_pair: self_key_pair,
self_confirmation_plain: self_confirmation_plain.unwrap_or(Default::default()),
trusted_nodes: trusted_nodes,
other_node_id: None,
other_confirmation_plain: None,
shared_key: None,
}
}
/// Wait for handshake procedure to be started by another node from the cluster.
pub fn accept_handshake<A>(a: A, self_key_pair: KeyPair, trusted_nodes: BTreeSet<NodeId>) -> Handshake<A> where A: io::Write + io::Read {
let self_confirmation_plain = Random.generate().map(|kp| *kp.secret().clone()).map_err(Into::into);
let (error, state) = match self_confirmation_plain.clone() {
Ok(_) => (None, HandshakeState::ReceivePublicKey(read_message(a))),
Err(err) => (Some((a, Err(err))), HandshakeState::Finished),
};
Handshake {
is_active: false,
error: error,
state: state,
self_key_pair: self_key_pair,
self_confirmation_plain: self_confirmation_plain.unwrap_or(Default::default()),
trusted_nodes: trusted_nodes,
other_node_id: None,
other_confirmation_plain: None,
shared_key: None,
}
}
#[derive(Debug, PartialEq)]
/// Result of handshake procedure.
pub struct HandshakeResult {
/// Node id.
pub node_id: NodeId,
/// Shared key.
pub shared_key: Secret,
}
/// Future handshake procedure.
pub struct Handshake<A> {
is_active: bool,
error: Option<(A, Result<HandshakeResult, Error>)>,
state: HandshakeState<A>,
self_key_pair: KeyPair,
self_confirmation_plain: H256,
trusted_nodes: BTreeSet<NodeId>,
other_node_id: Option<NodeId>,
other_confirmation_plain: Option<H256>,
shared_key: Option<Secret>,
}
/// Active handshake state.
enum HandshakeState<A> {
SendPublicKey(WriteMessage<A>),
ReceivePublicKey(ReadMessage<A>),
SendPrivateKeySignature(WriteMessage<A>),
ReceivePrivateKeySignature(ReadMessage<A>),
Finished,
}
impl<A> Handshake<A> where A: io::Read + io::Write {
#[cfg(test)]
pub fn set_self_confirmation_plain(&mut self, self_confirmation_plain: H256) {
self.self_confirmation_plain = self_confirmation_plain;
}
pub fn make_public_key_message(self_node_id: NodeId, confirmation_plain: H256) -> Result<Message, Error> {
Ok(Message::Cluster(ClusterMessage::NodePublicKey(NodePublicKey {
node_id: self_node_id.into(),
confirmation_plain: confirmation_plain.into(),
})))
}
fn make_private_key_signature_message(secret: &Secret, confirmation_plain: &H256) -> Result<Message, Error> {
Ok(Message::Cluster(ClusterMessage::NodePrivateKeySignature(NodePrivateKeySignature {
confirmation_signed: sign(secret, confirmation_plain)?.into(),
})))
}
}
impl<A> Future for Handshake<A> where A: io::Read + io::Write {
type Item = (A, Result<HandshakeResult, Error>);
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
if let Some(error_result) = self.error.take() {
return Ok(error_result.into());
}
let (next, result) = match self.state {
HandshakeState::SendPublicKey(ref mut future) => {
let (stream, _) = try_ready!(future.poll());
if self.is_active {
(HandshakeState::ReceivePublicKey(
read_message(stream)
), Async::NotReady)
} else {
self.shared_key = match compute_shared_key(self.self_key_pair.secret(),
self.other_node_id.as_ref().expect("we are in passive mode; in passive mode SendPublicKey follows ReceivePublicKey; other_node_id is filled in ReceivePublicKey; qed")
) {
Ok(shared_key) => Some(shared_key),
Err(err) => return Ok((stream, Err(err)).into()),
};
let message = match Handshake::<A>::make_private_key_signature_message(
self.self_key_pair.secret(),
self.other_confirmation_plain.as_ref().expect("we are in passive mode; in passive mode SendPublicKey follows ReceivePublicKey; other_confirmation_plain is filled in ReceivePublicKey; qed")
) {
Ok(message) => message,
Err(err) => return Ok((stream, Err(err)).into()),
};
(HandshakeState::SendPrivateKeySignature(write_encrypted_message(stream,
self.shared_key.as_ref().expect("filled couple of lines above; qed"),
message)), Async::NotReady)
}
},
HandshakeState::ReceivePublicKey(ref mut future) => {
let (stream, message) = try_ready!(future.poll());
let message = match message {
Ok(message) => match message {
Message::Cluster(ClusterMessage::NodePublicKey(message)) => message,
_ => return Ok((stream, Err(Error::InvalidMessage)).into()),
},
Err(err) => return Ok((stream, Err(err.into())).into()),
};
if !self.trusted_nodes.contains(&*message.node_id) {
return Ok((stream, Err(Error::InvalidNodeId)).into());
}
self.other_node_id = Some(message.node_id.into());
self.other_confirmation_plain = Some(message.confirmation_plain.into());
if self.is_active {
self.shared_key = match compute_shared_key(self.self_key_pair.secret(),
self.other_node_id.as_ref().expect("filled couple of lines above; qed")
) {
Ok(shared_key) => Some(shared_key),
Err(err) => return Ok((stream, Err(err)).into()),
};
let message = match Handshake::<A>::make_private_key_signature_message(
self.self_key_pair.secret(),
self.other_confirmation_plain.as_ref().expect("filled couple of lines above; qed")
) {
Ok(message) => message,
Err(err) => return Ok((stream, Err(err)).into()),
};
(HandshakeState::SendPrivateKeySignature(write_encrypted_message(stream,
self.shared_key.as_ref().expect("filled couple of lines above; qed"),
message)), Async::NotReady)
} else {
let message = match Handshake::<A>::make_public_key_message(self.self_key_pair.public().clone(), self.self_confirmation_plain.clone()) {
Ok(message) => message,
Err(err) => return Ok((stream, Err(err)).into()),
};
(HandshakeState::SendPublicKey(write_message(stream, message)), Async::NotReady)
}
},
HandshakeState::SendPrivateKeySignature(ref mut future) => {
let (stream, _) = try_ready!(future.poll());
(HandshakeState::ReceivePrivateKeySignature(
read_message(stream)
), Async::NotReady)
},
HandshakeState::ReceivePrivateKeySignature(ref mut future) => {
let (stream, message) = try_ready!(future.poll());
let message = match message {
Ok(message) => match message {
Message::Cluster(ClusterMessage::NodePrivateKeySignature(message)) => message,
_ => return Ok((stream, Err(Error::InvalidMessage)).into()),
},
Err(err) => return Ok((stream, Err(err.into())).into()),
};
let other_node_public = self.other_node_id.as_ref().expect("other_node_id is filled in ReceivePublicKey; ReceivePrivateKeySignature follows ReceivePublicKey; qed");
if !verify_public(other_node_public, &*message.confirmation_signed, &self.self_confirmation_plain).unwrap_or(false) {
return Ok((stream, Err(Error::InvalidMessage)).into());
}
(HandshakeState::Finished, Async::Ready((stream, Ok(HandshakeResult {
node_id: self.other_node_id.expect("other_node_id is filled in ReceivePublicKey; ReceivePrivateKeySignature follows ReceivePublicKey; qed"),
shared_key: self.shared_key.clone().expect("shared_key is filled in Send/ReceivePublicKey; ReceivePrivateKeySignature follows Send/ReceivePublicKey; qed"),
}))))
},
HandshakeState::Finished => panic!("poll Handshake after it's done"),
};
self.state = next;
match result {
// by polling again, we register new future
Async::NotReady => self.poll(),
result => Ok(result)
}
}
}
#[cfg(test)]
mod tests {
use std::collections::BTreeSet;
use futures::Future;
use ethcrypto::ecdh::agree;
use ethkey::{Random, Generator, sign};
use util::H256;
use key_server_cluster::io::message::tests::TestIo;
use key_server_cluster::message::{Message, ClusterMessage, NodePublicKey, NodePrivateKeySignature};
use super::{handshake_with_plain_confirmation, accept_handshake, HandshakeResult};
fn prepare_test_io() -> (H256, TestIo) {
let self_key_pair = Random.generate().unwrap();
let peer_key_pair = Random.generate().unwrap();
let mut io = TestIo::new(self_key_pair.clone(), peer_key_pair.public().clone());
let self_confirmation_plain = *Random.generate().unwrap().secret().clone();
let peer_confirmation_plain = *Random.generate().unwrap().secret().clone();
let self_confirmation_signed = sign(peer_key_pair.secret(), &self_confirmation_plain).unwrap();
let peer_confirmation_signed = sign(self_key_pair.secret(), &peer_confirmation_plain).unwrap();
io.add_input_message(Message::Cluster(ClusterMessage::NodePublicKey(NodePublicKey {
node_id: peer_key_pair.public().clone().into(),
confirmation_plain: peer_confirmation_plain.into(),
})));
io.add_input_message(Message::Cluster(ClusterMessage::NodePrivateKeySignature(NodePrivateKeySignature {
confirmation_signed: self_confirmation_signed.into(),
})));
io.add_output_message(Message::Cluster(ClusterMessage::NodePublicKey(NodePublicKey {
node_id: self_key_pair.public().clone().into(),
confirmation_plain: self_confirmation_plain.clone().into(),
})));
io.add_output_message(Message::Cluster(ClusterMessage::NodePrivateKeySignature(NodePrivateKeySignature {
confirmation_signed: peer_confirmation_signed.into(),
})));
(self_confirmation_plain, io)
}
#[test]
fn active_handshake_works() {
let (self_confirmation_plain, io) = prepare_test_io();
let self_key_pair = io.self_key_pair().clone();
let trusted_nodes: BTreeSet<_> = vec![io.peer_public().clone()].into_iter().collect();
let shared_key = agree(self_key_pair.secret(), trusted_nodes.iter().nth(0).unwrap()).unwrap();
let handshake = handshake_with_plain_confirmation(io, Ok(self_confirmation_plain), self_key_pair, trusted_nodes);
let handshake_result = handshake.wait().unwrap();
assert_eq!(handshake_result.1, Ok(HandshakeResult {
node_id: handshake_result.0.peer_public().clone(),
shared_key: shared_key,
}));
handshake_result.0.assert_output();
}
#[test]
fn passive_handshake_works() {
let (self_confirmation_plain, io) = prepare_test_io();
let self_key_pair = io.self_key_pair().clone();
let trusted_nodes: BTreeSet<_> = vec![io.peer_public().clone()].into_iter().collect();
let shared_key = agree(self_key_pair.secret(), io.peer_public()).unwrap();
let mut handshake = accept_handshake(io, self_key_pair, trusted_nodes);
handshake.set_self_confirmation_plain(self_confirmation_plain);
let handshake_result = handshake.wait().unwrap();
assert_eq!(handshake_result.1, Ok(HandshakeResult {
node_id: handshake_result.0.peer_public().clone(),
shared_key: shared_key,
}));
handshake_result.0.assert_output();
}
}

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// Copyright 2015-2017 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/>.
use std::io::Cursor;
use std::u16;
use std::ops::Deref;
use byteorder::{LittleEndian, ReadBytesExt, WriteBytesExt};
use serde_json;
use ethcrypto::ecdh::agree;
use ethkey::{Public, Secret};
use key_server_cluster::Error;
use key_server_cluster::message::{Message, ClusterMessage, EncryptionMessage, DecryptionMessage};
/// Size of serialized header.
pub const MESSAGE_HEADER_SIZE: usize = 4;
#[derive(Debug, PartialEq)]
/// Message header.
pub struct MessageHeader {
/// Message/Header version.
pub version: u8,
/// Message kind.
pub kind: u8,
/// Message payload size (without header).
pub size: u16,
}
#[derive(Debug, Clone, PartialEq)]
/// Serialized message.
pub struct SerializedMessage(Vec<u8>);
impl Deref for SerializedMessage {
type Target = [u8];
fn deref(&self) -> &[u8] {
&self.0
}
}
impl Into<Vec<u8>> for SerializedMessage {
fn into(self) -> Vec<u8> {
self.0
}
}
/// Serialize message.
pub fn serialize_message(message: Message) -> Result<SerializedMessage, Error> {
let (message_kind, payload) = match message {
Message::Cluster(ClusterMessage::NodePublicKey(payload)) => (1, serde_json::to_vec(&payload)),
Message::Cluster(ClusterMessage::NodePrivateKeySignature(payload)) => (2, serde_json::to_vec(&payload)),
Message::Cluster(ClusterMessage::KeepAlive(payload)) => (3, serde_json::to_vec(&payload)),
Message::Cluster(ClusterMessage::KeepAliveResponse(payload)) => (4, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::InitializeSession(payload)) => (50, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::ConfirmInitialization(payload)) => (51, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::CompleteInitialization(payload)) => (52, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::KeysDissemination(payload)) => (53, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::Complaint(payload)) => (54, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::ComplaintResponse(payload)) => (55, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::PublicKeyShare(payload)) => (56, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::SessionError(payload)) => (57, serde_json::to_vec(&payload)),
Message::Encryption(EncryptionMessage::SessionCompleted(payload)) => (58, serde_json::to_vec(&payload)),
Message::Decryption(DecryptionMessage::InitializeDecryptionSession(payload)) => (100, serde_json::to_vec(&payload)),
Message::Decryption(DecryptionMessage::ConfirmDecryptionInitialization(payload)) => (101, serde_json::to_vec(&payload)),
Message::Decryption(DecryptionMessage::RequestPartialDecryption(payload)) => (102, serde_json::to_vec(&payload)),
Message::Decryption(DecryptionMessage::PartialDecryption(payload)) => (103, serde_json::to_vec(&payload)),
Message::Decryption(DecryptionMessage::DecryptionSessionError(payload)) => (104, serde_json::to_vec(&payload)),
};
let payload = payload.map_err(|err| Error::Serde(err.to_string()))?;
let payload_len = payload.len();
if payload_len > u16::MAX as usize {
return Err(Error::InvalidMessage);
}
let header = MessageHeader {
kind: message_kind,
version: 1,
size: payload_len as u16,
};
let mut serialized_message = serialize_header(&header)?;
serialized_message.extend(payload);
Ok(SerializedMessage(serialized_message))
}
/// Deserialize message.
pub fn deserialize_message(header: &MessageHeader, payload: Vec<u8>) -> Result<Message, Error> {
Ok(match header.kind {
1 => Message::Cluster(ClusterMessage::NodePublicKey(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
2 => Message::Cluster(ClusterMessage::NodePrivateKeySignature(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
3 => Message::Cluster(ClusterMessage::KeepAlive(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
4 => Message::Cluster(ClusterMessage::KeepAliveResponse(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
50 => Message::Encryption(EncryptionMessage::InitializeSession(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
51 => Message::Encryption(EncryptionMessage::ConfirmInitialization(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
52 => Message::Encryption(EncryptionMessage::CompleteInitialization(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
53 => Message::Encryption(EncryptionMessage::KeysDissemination(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
54 => Message::Encryption(EncryptionMessage::Complaint(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
55 => Message::Encryption(EncryptionMessage::ComplaintResponse(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
56 => Message::Encryption(EncryptionMessage::PublicKeyShare(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
57 => Message::Encryption(EncryptionMessage::SessionError(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
58 => Message::Encryption(EncryptionMessage::SessionCompleted(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
100 => Message::Decryption(DecryptionMessage::InitializeDecryptionSession(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
101 => Message::Decryption(DecryptionMessage::ConfirmDecryptionInitialization(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
102 => Message::Decryption(DecryptionMessage::RequestPartialDecryption(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
103 => Message::Decryption(DecryptionMessage::PartialDecryption(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
104 => Message::Decryption(DecryptionMessage::DecryptionSessionError(serde_json::from_slice(&payload).map_err(|err| Error::Serde(err.to_string()))?)),
_ => return Err(Error::Serde(format!("unknown message type {}", header.kind))),
})
}
/// Encrypt serialized message.
pub fn encrypt_message(_key: &Secret, message: SerializedMessage) -> Result<SerializedMessage, Error> {
Ok(message) // TODO: implement me
}
/// Decrypt serialized message.
pub fn decrypt_message(_key: &Secret, payload: Vec<u8>) -> Result<Vec<u8>, Error> {
Ok(payload) // TODO: implement me
}
/// Compute shared encryption key.
pub fn compute_shared_key(self_secret: &Secret, other_public: &Public) -> Result<Secret, Error> {
Ok(agree(self_secret, other_public)?)
}
/// Serialize message header.
fn serialize_header(header: &MessageHeader) -> Result<Vec<u8>, Error> {
let mut buffer = Vec::with_capacity(MESSAGE_HEADER_SIZE);
buffer.write_u8(header.version)?;
buffer.write_u8(header.kind)?;
buffer.write_u16::<LittleEndian>(header.size)?;
Ok(buffer)
}
/// Deserialize message header.
pub fn deserialize_header(data: &[u8]) -> Result<MessageHeader, Error> {
let mut reader = Cursor::new(data);
Ok(MessageHeader {
version: reader.read_u8()?,
kind: reader.read_u8()?,
size: reader.read_u16::<LittleEndian>()?,
})
}
#[cfg(test)]
pub mod tests {
use std::io;
use ethkey::{KeyPair, Public};
use key_server_cluster::message::Message;
use super::{MESSAGE_HEADER_SIZE, MessageHeader, serialize_message, serialize_header, deserialize_header};
pub struct TestIo {
self_key_pair: KeyPair,
peer_public: Public,
input_buffer: io::Cursor<Vec<u8>>,
output_buffer: Vec<u8>,
expected_output_buffer: Vec<u8>,
}
impl TestIo {
pub fn new(self_key_pair: KeyPair, peer_public: Public) -> Self {
TestIo {
self_key_pair: self_key_pair,
peer_public: peer_public,
input_buffer: io::Cursor::new(Vec::new()),
output_buffer: Vec::new(),
expected_output_buffer: Vec::new(),
}
}
pub fn self_key_pair(&self) -> &KeyPair {
&self.self_key_pair
}
pub fn peer_public(&self) -> &Public {
&self.peer_public
}
pub fn add_input_message(&mut self, message: Message) {
let serialized_message = serialize_message(message).unwrap();
let serialized_message: Vec<_> = serialized_message.into();
let input_buffer = self.input_buffer.get_mut();
for b in serialized_message {
input_buffer.push(b);
}
}
pub fn add_output_message(&mut self, message: Message) {
let serialized_message = serialize_message(message).unwrap();
let serialized_message: Vec<_> = serialized_message.into();
self.expected_output_buffer.extend(serialized_message);
}
pub fn assert_output(&self) {
assert_eq!(self.output_buffer, self.expected_output_buffer);
}
}
impl io::Read for TestIo {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
io::Read::read(&mut self.input_buffer, buf)
}
}
impl io::Write for TestIo {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
io::Write::write(&mut self.output_buffer, buf)
}
fn flush(&mut self) -> io::Result<()> {
io::Write::flush(&mut self.output_buffer)
}
}
#[test]
fn header_serialization_works() {
let header = MessageHeader {
kind: 1,
version: 2,
size: 3,
};
let serialized_header = serialize_header(&header).unwrap();
assert_eq!(serialized_header.len(), MESSAGE_HEADER_SIZE);
let deserialized_header = deserialize_header(&serialized_header).unwrap();
assert_eq!(deserialized_header, header);
}
}

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// Copyright 2015-2017 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/>.
mod deadline;
mod handshake;
mod message;
mod read_header;
mod read_payload;
mod read_message;
mod shared_tcp_stream;
mod write_message;
pub use self::deadline::{deadline, Deadline, DeadlineStatus};
pub use self::handshake::{handshake, accept_handshake, Handshake, HandshakeResult};
pub use self::message::{MessageHeader, SerializedMessage, serialize_message, deserialize_message,
encrypt_message, compute_shared_key};
pub use self::read_header::{read_header, ReadHeader};
pub use self::read_payload::{read_payload, read_encrypted_payload, ReadPayload};
pub use self::read_message::{read_message, read_encrypted_message, ReadMessage};
pub use self::shared_tcp_stream::SharedTcpStream;
pub use self::write_message::{write_message, write_encrypted_message, WriteMessage};

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// Copyright 2015-2017 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/>.
use std::io;
use futures::{Future, Poll, Async};
use tokio_core::io::{ReadExact, read_exact};
use key_server_cluster::Error;
use key_server_cluster::io::message::{MESSAGE_HEADER_SIZE, MessageHeader, deserialize_header};
/// Create future for read single message header from the stream.
pub fn read_header<A>(a: A) -> ReadHeader<A> where A: io::Read {
ReadHeader {
reader: read_exact(a, [0; MESSAGE_HEADER_SIZE]),
}
}
/// Future for read single message header from the stream.
pub struct ReadHeader<A> {
reader: ReadExact<A, [u8; MESSAGE_HEADER_SIZE]>,
}
impl<A> Future for ReadHeader<A> where A: io::Read {
type Item = (A, Result<MessageHeader, Error>);
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let (read, data) = try_ready!(self.reader.poll());
let header = deserialize_header(&data);
Ok(Async::Ready((read, header)))
}
}

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// Copyright 2015-2017 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/>.
use std::io;
use futures::{Poll, Future, Async};
use ethkey::Secret;
use key_server_cluster::Error;
use key_server_cluster::message::Message;
use key_server_cluster::io::{read_header, ReadHeader, read_payload, read_encrypted_payload, ReadPayload};
/// Create future for read single message from the stream.
pub fn read_message<A>(a: A) -> ReadMessage<A> where A: io::Read {
ReadMessage {
key: None,
state: ReadMessageState::ReadHeader(read_header(a)),
}
}
/// Create future for read single encrypted message from the stream.
pub fn read_encrypted_message<A>(a: A, key: Secret) -> ReadMessage<A> where A: io::Read {
ReadMessage {
key: Some(key),
state: ReadMessageState::ReadHeader(read_header(a)),
}
}
enum ReadMessageState<A> {
ReadHeader(ReadHeader<A>),
ReadPayload(ReadPayload<A>),
Finished,
}
/// Future for read single message from the stream.
pub struct ReadMessage<A> {
key: Option<Secret>,
state: ReadMessageState<A>,
}
impl<A> Future for ReadMessage<A> where A: io::Read {
type Item = (A, Result<Message, Error>);
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let (next, result) = match self.state {
ReadMessageState::ReadHeader(ref mut future) => {
let (read, header) = try_ready!(future.poll());
let header = match header {
Ok(header) => header,
Err(err) => return Ok((read, Err(err)).into()),
};
let future = match self.key.take() {
Some(key) => read_encrypted_payload(read, header, key),
None => read_payload(read, header),
};
let next = ReadMessageState::ReadPayload(future);
(next, Async::NotReady)
},
ReadMessageState::ReadPayload(ref mut future) => {
let (read, payload) = try_ready!(future.poll());
(ReadMessageState::Finished, Async::Ready((read, payload)))
},
ReadMessageState::Finished => panic!("poll ReadMessage after it's done"),
};
self.state = next;
match result {
// by polling again, we register new future
Async::NotReady => self.poll(),
result => Ok(result)
}
}
}

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// Copyright 2015-2017 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/>.
use std::io;
use futures::{Poll, Future};
use tokio_core::io::{read_exact, ReadExact};
use ethkey::Secret;
use key_server_cluster::Error;
use key_server_cluster::message::Message;
use key_server_cluster::io::message::{MessageHeader, deserialize_message, decrypt_message};
/// Create future for read single message payload from the stream.
pub fn read_payload<A>(a: A, header: MessageHeader) -> ReadPayload<A> where A: io::Read {
ReadPayload {
reader: read_exact(a, vec![0; header.size as usize]),
header: header,
key: None,
}
}
/// Create future for read single encrypted message payload from the stream.
pub fn read_encrypted_payload<A>(a: A, header: MessageHeader, key: Secret) -> ReadPayload<A> where A: io::Read {
ReadPayload {
reader: read_exact(a, vec![0; header.size as usize]),
header: header,
key: Some(key),
}
}
/// Future for read single message payload from the stream.
pub struct ReadPayload<A> {
reader: ReadExact<A, Vec<u8>>,
header: MessageHeader,
key: Option<Secret>,
}
impl<A> Future for ReadPayload<A> where A: io::Read {
type Item = (A, Result<Message, Error>);
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let (read, data) = try_ready!(self.reader.poll());
let payload = if let Some(key) = self.key.take() {
decrypt_message(&key, data)
.and_then(|data| deserialize_message(&self.header, data))
} else {
deserialize_message(&self.header, data)
};
Ok((read, payload).into())
}
}

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// Copyright 2015-2017 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/>.
use std::sync::Arc;
use std::io::{Read, Write, Error};
use tokio_core::net::TcpStream;
/// Read+Write implementation for Arc<TcpStream>.
pub struct SharedTcpStream {
io: Arc<TcpStream>,
}
impl SharedTcpStream {
pub fn new(a: Arc<TcpStream>) -> Self {
SharedTcpStream {
io: a,
}
}
}
impl From<TcpStream> for SharedTcpStream {
fn from(a: TcpStream) -> Self {
SharedTcpStream::new(Arc::new(a))
}
}
impl Read for SharedTcpStream {
fn read(&mut self, buf: &mut [u8]) -> Result<usize, Error> {
Read::read(&mut (&*self.io as &TcpStream), buf)
}
}
impl Write for SharedTcpStream {
fn write(&mut self, buf: &[u8]) -> Result<usize, Error> {
Write::write(&mut (&*self.io as &TcpStream), buf)
}
fn flush(&mut self) -> Result<(), Error> {
Write::flush(&mut (&*self.io as &TcpStream))
}
}
impl Clone for SharedTcpStream {
fn clone(&self) -> Self {
SharedTcpStream::new(self.io.clone())
}
}

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// Copyright 2015-2017 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/>.
use std::io;
use futures::{Future, Poll};
use tokio_core::io::{WriteAll, write_all};
use ethkey::Secret;
use key_server_cluster::message::Message;
use key_server_cluster::io::{serialize_message, encrypt_message};
/// Write plain message to the channel.
pub fn write_message<A>(a: A, message: Message) -> WriteMessage<A> where A: io::Write {
let (error, future) = match serialize_message(message)
.map_err(|e| io::Error::new(io::ErrorKind::Other, e.to_string())) {
Ok(message) => (None, write_all(a, message.into())),
Err(error) => (Some(error), write_all(a, Vec::new())),
};
WriteMessage {
error: error,
future: future,
}
}
/// Write encrypted message to the channel.
pub fn write_encrypted_message<A>(a: A, key: &Secret, message: Message) -> WriteMessage<A> where A: io::Write {
let (error, future) = match serialize_message(message)
.and_then(|message| encrypt_message(key, message))
.map_err(|e| io::Error::new(io::ErrorKind::Other, e.to_string())) {
Ok(message) => (None, write_all(a, message.into())),
Err(error) => (Some(error), write_all(a, Vec::new())),
};
WriteMessage {
error: error,
future: future,
}
}
/// Future message write.
pub struct WriteMessage<A> {
error: Option<io::Error>,
future: WriteAll<A, Vec<u8>>,
}
impl<A> Future for WriteMessage<A> where A: io::Write {
type Item = (A, Vec<u8>);
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
if let Some(err) = self.error.take() {
return Err(err);
}
self.future.poll()
}
}

View File

@ -160,7 +160,7 @@ pub fn compute_joint_secret<'a, I>(mut secret_coeffs: I) -> Result<Secret, Error
}
/// Encrypt secret with joint public key.
pub fn encrypt_secret(secret: Public, joint_public: &Public) -> Result<EncryptedSecret, Error> {
pub fn encrypt_secret(secret: &Public, joint_public: &Public) -> Result<EncryptedSecret, Error> {
// this is performed by KS-cluster client (or KS master)
let key_pair = Random.generate()?;
@ -171,7 +171,7 @@ pub fn encrypt_secret(secret: Public, joint_public: &Public) -> Result<Encrypted
// M + k * y
let mut encrypted_point = joint_public.clone();
math::public_mul_secret(&mut encrypted_point, key_pair.secret())?;
math::public_add(&mut encrypted_point, &secret)?;
math::public_add(&mut encrypted_point, secret)?;
Ok(EncryptedSecret {
common_point: common_point,
@ -181,7 +181,11 @@ pub fn encrypt_secret(secret: Public, joint_public: &Public) -> Result<Encrypted
/// Compute shadow for the node.
pub fn compute_node_shadow<'a, I>(node_number: &Secret, node_secret_share: &Secret, mut other_nodes_numbers: I) -> Result<Secret, Error> where I: Iterator<Item=&'a Secret> {
let other_node_number = other_nodes_numbers.next().expect("compute_node_shadow is called when at least two nodes are required to decrypt secret; qed");
let other_node_number = match other_nodes_numbers.next() {
Some(other_node_number) => other_node_number,
None => return Ok(node_secret_share.clone()),
};
let mut shadow = node_number.clone();
shadow.sub(other_node_number)?;
shadow.inv()?;
@ -231,17 +235,24 @@ pub fn compute_joint_shadow_point_test<'a, I>(access_key: &Secret, common_point:
}
/// Decrypt data using joint shadow point.
pub fn decrypt_with_joint_shadow(access_key: &Secret, encrypted_point: &Public, joint_shadow_point: &Public) -> Result<Public, Error> {
pub fn decrypt_with_joint_shadow(threshold: usize, access_key: &Secret, encrypted_point: &Public, joint_shadow_point: &Public) -> Result<Public, Error> {
let mut inv_access_key = access_key.clone();
inv_access_key.inv()?;
let mut decrypted_point = joint_shadow_point.clone();
math::public_mul_secret(&mut decrypted_point, &inv_access_key)?;
math::public_add(&mut decrypted_point, encrypted_point)?;
let mut mul = joint_shadow_point.clone();
math::public_mul_secret(&mut mul, &inv_access_key)?;
let mut decrypted_point = encrypted_point.clone();
if threshold % 2 != 0 {
math::public_add(&mut decrypted_point, &mul)?;
} else {
math::public_sub(&mut decrypted_point, &mul)?;
}
Ok(decrypted_point)
}
#[cfg(test)]
/// Decrypt data using joint secret (version for tests).
pub fn decrypt_with_joint_secret(encrypted_point: &Public, common_point: &Public, joint_secret: &Secret) -> Result<Public, Error> {
let mut common_point_mul = common_point.clone();
@ -262,7 +273,7 @@ pub mod tests {
// === PART2: encryption using joint public key ===
// the next line is executed on KeyServer-client
let encrypted_secret = encrypt_secret(document_secret_plain.clone(), &joint_public).unwrap();
let encrypted_secret = encrypt_secret(&document_secret_plain, &joint_public).unwrap();
// === PART3: decryption ===
@ -285,7 +296,7 @@ pub mod tests {
assert_eq!(joint_shadow_point, joint_shadow_point_test);
// decrypt encrypted secret using joint shadow point
let document_secret_decrypted = decrypt_with_joint_shadow(&access_key, &encrypted_secret.encrypted_point, &joint_shadow_point).unwrap();
let document_secret_decrypted = decrypt_with_joint_shadow(t, &access_key, &encrypted_secret.encrypted_point, &joint_shadow_point).unwrap();
// decrypt encrypted secret using joint secret [just for test]
let document_secret_decrypted_test = match joint_secret {
@ -298,7 +309,8 @@ pub mod tests {
#[test]
fn full_encryption_math_session() {
let test_cases = [(1, 3)];
let test_cases = [(0, 2), (1, 2), (1, 3), (2, 3), (1, 4), (2, 4), (3, 4), (1, 5), (2, 5), (3, 5), (4, 5),
(1, 10), (2, 10), (3, 10), (4, 10), (5, 10), (6, 10), (7, 10), (8, 10), (9, 10)];
for &(t, n) in &test_cases {
// === PART1: DKG ===

View File

@ -14,13 +14,42 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::fmt;
use std::collections::{BTreeSet, BTreeMap};
use ethkey::{Public, Secret, Signature};
use key_server_cluster::{NodeId, SessionId};
use ethkey::Secret;
use key_server_cluster::SessionId;
use super::{SerializableH256, SerializablePublic, SerializableSecret, SerializableSignature};
pub type MessageSessionId = SerializableH256;
pub type MessageNodeId = SerializablePublic;
#[derive(Clone, Debug)]
/// All possible messages that can be sent during DKG.
/// All possible messages that can be sent during encryption/decryption sessions.
pub enum Message {
/// Cluster message.
Cluster(ClusterMessage),
/// Encryption message.
Encryption(EncryptionMessage),
/// Decryption message.
Decryption(DecryptionMessage),
}
#[derive(Clone, Debug)]
/// All possible cluster-level messages.
pub enum ClusterMessage {
/// Introduce node public key.
NodePublicKey(NodePublicKey),
/// Confirm that node owns its private key.
NodePrivateKeySignature(NodePrivateKeySignature),
/// Keep alive message.
KeepAlive(KeepAlive),
/// Keep alive message response.
KeepAliveResponse(KeepAliveResponse),
}
#[derive(Clone, Debug)]
/// All possible messages that can be sent during encryption session.
pub enum EncryptionMessage {
/// Initialize new DKG session.
InitializeSession(InitializeSession),
/// Confirm DKG session initialization.
@ -35,7 +64,15 @@ pub enum Message {
ComplaintResponse(ComplaintResponse),
/// Broadcast self public key portion.
PublicKeyShare(PublicKeyShare),
/// When session error has occured.
SessionError(SessionError),
/// When session is completed.
SessionCompleted(SessionCompleted),
}
#[derive(Clone, Debug)]
/// All possible messages that can be sent during decryption session.
pub enum DecryptionMessage {
/// Initialize decryption session.
InitializeDecryptionSession(InitializeDecryptionSession),
/// Confirm/reject decryption session initialization.
@ -44,125 +81,272 @@ pub enum Message {
RequestPartialDecryption(RequestPartialDecryption),
/// Partial decryption is completed
PartialDecryption(PartialDecryption),
/// When decryption session error has occured.
DecryptionSessionError(DecryptionSessionError),
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Introduce node public key.
pub struct NodePublicKey {
/// Node identifier (aka node public key).
pub node_id: MessageNodeId,
/// Data, which must be signed by peer to prove that he owns the corresponding private key.
pub confirmation_plain: SerializableH256,
}
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Confirm that node owns the private key of previously passed public key (aka node id).
pub struct NodePrivateKeySignature {
/// Previously passed `confirmation_plain`, signed with node private key.
pub confirmation_signed: SerializableSignature,
}
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Ask if the node is still alive.
pub struct KeepAlive {
}
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Confirm that the node is still alive.
pub struct KeepAliveResponse {
}
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Initialize new DKG session.
pub struct InitializeSession {
/// Session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Derived generation point. Starting from originator, every node must multiply this
/// point by random scalar (unknown by other nodes). At the end of initialization
/// `point` will be some (k1 * k2 * ... * kn) * G = `point` where `(k1 * k2 * ... * kn)`
/// is unknown for every node.
pub derived_point: Public,
pub derived_point: SerializablePublic,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Confirm DKG session initialization.
pub struct ConfirmInitialization {
/// Session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Derived generation point.
pub derived_point: Public,
pub derived_point: SerializablePublic,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Broadcast generated point to every other node.
pub struct CompleteInitialization {
/// Session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// All session participants along with their identification numbers.
pub nodes: BTreeMap<NodeId, Secret>,
pub nodes: BTreeMap<MessageNodeId, SerializableSecret>,
/// Decryption threshold. During decryption threshold-of-route.len() nodes must came to
/// consensus to successfully decrypt message.
pub threshold: usize,
/// Derived generation point.
pub derived_point: Public,
pub derived_point: SerializablePublic,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Generated keys are sent to every node.
pub struct KeysDissemination {
/// Session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Secret 1.
pub secret1: Secret,
pub secret1: SerializableSecret,
/// Secret 2.
pub secret2: Secret,
pub secret2: SerializableSecret,
/// Public values.
pub publics: Vec<Public>,
pub publics: Vec<SerializablePublic>,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Complaint against node is broadcasted.
pub struct Complaint {
/// Session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Public values.
pub against: NodeId,
pub against: MessageNodeId,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Node is responding to complaint.
pub struct ComplaintResponse {
/// Session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Secret 1.
pub secret1: Secret,
pub secret1: SerializableSecret,
/// Secret 2.
pub secret2: Secret,
pub secret2: SerializableSecret,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Node is sharing its public key share.
pub struct PublicKeyShare {
/// Session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Public key share.
pub public_share: Public,
pub public_share: SerializablePublic,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// When session error has occured.
pub struct SessionError {
/// Session Id.
pub session: MessageSessionId,
/// Public key share.
pub error: String,
}
#[derive(Clone, Debug, Serialize, Deserialize)]
/// When session is completed.
pub struct SessionCompleted {
/// Session Id.
pub session: MessageSessionId,
/// Common (shared) encryption point.
pub common_point: SerializablePublic,
/// Encrypted point.
pub encrypted_point: SerializablePublic,
}
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Node is requested to decrypt data, encrypted in given session.
pub struct InitializeDecryptionSession {
/// Encryption session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Decryption session Id.
pub sub_session: Secret,
pub sub_session: SerializableSecret,
/// Requestor signature.
pub requestor_signature: Signature,
pub requestor_signature: SerializableSignature,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Node is responding to decryption request.
pub struct ConfirmDecryptionInitialization {
/// Encryption session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Decryption session Id.
pub sub_session: Secret,
pub sub_session: SerializableSecret,
/// Is node confirmed to make a decryption?.
pub is_confirmed: bool,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Node is requested to do a partial decryption.
pub struct RequestPartialDecryption {
/// Encryption session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Decryption session Id.
pub sub_session: Secret,
pub sub_session: SerializableSecret,
/// Nodes that are agreed to do a decryption.
pub nodes: BTreeSet<NodeId>,
pub nodes: BTreeSet<MessageNodeId>,
}
#[derive(Clone, Debug)]
#[derive(Clone, Debug, Serialize, Deserialize)]
/// Node has partially decrypted the secret.
pub struct PartialDecryption {
/// Encryption session Id.
pub session: SessionId,
pub session: MessageSessionId,
/// Decryption session Id.
pub sub_session: Secret,
pub sub_session: SerializableSecret,
/// Partially decrypted secret.
pub shadow_point: Public,
pub shadow_point: SerializablePublic,
}
#[derive(Clone, Debug, Serialize, Deserialize)]
/// When decryption session error has occured.
pub struct DecryptionSessionError {
/// Encryption session Id.
pub session: MessageSessionId,
/// Decryption session Id.
pub sub_session: SerializableSecret,
/// Public key share.
pub error: String,
}
impl EncryptionMessage {
pub fn session_id(&self) -> &SessionId {
match *self {
EncryptionMessage::InitializeSession(ref msg) => &msg.session,
EncryptionMessage::ConfirmInitialization(ref msg) => &msg.session,
EncryptionMessage::CompleteInitialization(ref msg) => &msg.session,
EncryptionMessage::KeysDissemination(ref msg) => &msg.session,
EncryptionMessage::Complaint(ref msg) => &msg.session,
EncryptionMessage::ComplaintResponse(ref msg) => &msg.session,
EncryptionMessage::PublicKeyShare(ref msg) => &msg.session,
EncryptionMessage::SessionError(ref msg) => &msg.session,
EncryptionMessage::SessionCompleted(ref msg) => &msg.session,
}
}
}
impl DecryptionMessage {
pub fn session_id(&self) -> &SessionId {
match *self {
DecryptionMessage::InitializeDecryptionSession(ref msg) => &msg.session,
DecryptionMessage::ConfirmDecryptionInitialization(ref msg) => &msg.session,
DecryptionMessage::RequestPartialDecryption(ref msg) => &msg.session,
DecryptionMessage::PartialDecryption(ref msg) => &msg.session,
DecryptionMessage::DecryptionSessionError(ref msg) => &msg.session,
}
}
pub fn sub_session_id(&self) -> &Secret {
match *self {
DecryptionMessage::InitializeDecryptionSession(ref msg) => &msg.sub_session,
DecryptionMessage::ConfirmDecryptionInitialization(ref msg) => &msg.sub_session,
DecryptionMessage::RequestPartialDecryption(ref msg) => &msg.sub_session,
DecryptionMessage::PartialDecryption(ref msg) => &msg.sub_session,
DecryptionMessage::DecryptionSessionError(ref msg) => &msg.sub_session,
}
}
}
impl fmt::Display for Message {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Message::Cluster(ref message) => write!(f, "Cluster.{}", message),
Message::Encryption(ref message) => write!(f, "Encryption.{}", message),
Message::Decryption(ref message) => write!(f, "Decryption.{}", message),
}
}
}
impl fmt::Display for ClusterMessage {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
ClusterMessage::NodePublicKey(_) => write!(f, "NodePublicKey"),
ClusterMessage::NodePrivateKeySignature(_) => write!(f, "NodePrivateKeySignature"),
ClusterMessage::KeepAlive(_) => write!(f, "KeepAlive"),
ClusterMessage::KeepAliveResponse(_) => write!(f, "KeepAliveResponse"),
}
}
}
impl fmt::Display for EncryptionMessage {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
EncryptionMessage::InitializeSession(_) => write!(f, "InitializeSession"),
EncryptionMessage::ConfirmInitialization(_) => write!(f, "ConfirmInitialization"),
EncryptionMessage::CompleteInitialization(_) => write!(f, "CompleteInitialization"),
EncryptionMessage::KeysDissemination(_) => write!(f, "KeysDissemination"),
EncryptionMessage::Complaint(_) => write!(f, "Complaint"),
EncryptionMessage::ComplaintResponse(_) => write!(f, "ComplaintResponse"),
EncryptionMessage::PublicKeyShare(_) => write!(f, "PublicKeyShare"),
EncryptionMessage::SessionError(ref msg) => write!(f, "SessionError({})", msg.error),
EncryptionMessage::SessionCompleted(_) => write!(f, "SessionCompleted"),
}
}
}
impl fmt::Display for DecryptionMessage {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
DecryptionMessage::InitializeDecryptionSession(_) => write!(f, "InitializeDecryptionSession"),
DecryptionMessage::ConfirmDecryptionInitialization(_) => write!(f, "ConfirmDecryptionInitialization"),
DecryptionMessage::RequestPartialDecryption(_) => write!(f, "RequestPartialDecryption"),
DecryptionMessage::PartialDecryption(_) => write!(f, "PartialDecryption"),
DecryptionMessage::DecryptionSessionError(_) => write!(f, "DecryptionSessionError"),
}
}
}

View File

@ -14,21 +14,36 @@
// You should have received a copy of the GNU General Public License
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
#![allow(dead_code)] // TODO: remove me
use std::collections::BTreeMap;
use ethkey::{self, Public, Secret, Signature};
use std::fmt;
use std::io::Error as IoError;
use ethkey;
use ethcrypto;
use super::types::all::DocumentAddress;
pub use super::acl_storage::AclStorage;
pub use super::types::all::{NodeId, EncryptionConfiguration};
pub use super::acl_storage::{AclStorage, DummyAclStorage};
pub use super::key_storage::{KeyStorage, DocumentKeyShare};
pub use super::serialization::{SerializableSignature, SerializableH256, SerializableSecret, SerializablePublic};
pub use self::cluster::{ClusterCore, ClusterConfiguration, ClusterClient};
pub use self::encryption_session::Session as EncryptionSession;
pub use self::decryption_session::Session as DecryptionSession;
#[cfg(test)]
pub use super::key_storage::tests::DummyKeyStorage;
pub type NodeId = Public;
pub type SessionId = DocumentAddress;
pub type SessionIdSignature = Signature;
#[derive(Debug, PartialEq)]
#[derive(Clone, Debug, PartialEq)]
/// Errors which can occur during encryption/decryption session
pub enum Error {
/// Invalid node address has been passed.
InvalidNodeAddress,
/// Invalid node id has been passed.
InvalidNodeId,
/// Session with the given id already exists.
DuplicateSessionId,
/// Session with the given id is unknown.
InvalidSessionId,
/// Invalid number of nodes.
/// There must be at least two nodes participating in encryption.
/// There must be at least one node participating in decryption.
@ -39,28 +54,24 @@ pub enum Error {
/// Threshold value must be in [0; n - 1], where n is a number of nodes participating in the encryption.
InvalidThreshold,
/// Current state of encryption/decryption session does not allow to proceed request.
/// Reschedule this request for later processing.
TooEarlyForRequest,
/// Current state of encryption/decryption session does not allow to proceed request.
/// This means that either there is some comm-failure or node is misbehaving/cheating.
InvalidStateForRequest,
/// Some data in passed message was recognized as invalid.
/// Message or some data in the message was recognized as invalid.
/// This means that node is misbehaving/cheating.
InvalidMessage,
/// Connection to node, required for this session is not established.
NodeDisconnected,
/// Cryptographic error.
EthKey(String),
}
#[derive(Debug, Clone)]
/// Data, which is stored on every node after DKG && encryption is completed.
pub struct EncryptedData {
/// Decryption threshold (at least threshold + 1 nodes are required to decrypt data).
threshold: usize,
/// Nodes ids numbers.
id_numbers: BTreeMap<NodeId, Secret>,
/// Node secret share.
secret_share: Secret,
/// Common (shared) encryption point.
common_point: Public,
/// Encrypted point.
encrypted_point: Public,
/// I/O error has occured.
Io(String),
/// Deserialization error has occured.
Serde(String),
/// Key storage error.
KeyStorage(String),
}
impl From<ethkey::Error> for Error {
@ -69,8 +80,50 @@ impl From<ethkey::Error> for Error {
}
}
impl From<ethcrypto::Error> for Error {
fn from(err: ethcrypto::Error) -> Self {
Error::EthKey(err.into())
}
}
impl From<IoError> for Error {
fn from(err: IoError) -> Self {
Error::Io(err.to_string())
}
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Error::InvalidNodeAddress => write!(f, "invalid node address has been passed"),
Error::InvalidNodeId => write!(f, "invalid node id has been passed"),
Error::DuplicateSessionId => write!(f, "session with the same id is already registered"),
Error::InvalidSessionId => write!(f, "invalid session id has been passed"),
Error::InvalidNodesCount => write!(f, "invalid nodes count"),
Error::InvalidNodesConfiguration => write!(f, "invalid nodes configuration"),
Error::InvalidThreshold => write!(f, "invalid threshold value has been passed"),
Error::TooEarlyForRequest => write!(f, "session is not yet ready to process this request"),
Error::InvalidStateForRequest => write!(f, "session is in invalid state for processing this request"),
Error::InvalidMessage => write!(f, "invalid message is received"),
Error::NodeDisconnected => write!(f, "node required for this operation is currently disconnected"),
Error::EthKey(ref e) => write!(f, "cryptographic error {}", e),
Error::Io(ref e) => write!(f, "i/o error {}", e),
Error::Serde(ref e) => write!(f, "serde error {}", e),
Error::KeyStorage(ref e) => write!(f, "key storage error {}", e),
}
}
}
impl Into<String> for Error {
fn into(self) -> String {
format!("{}", self)
}
}
mod cluster;
mod decryption_session;
mod encryption_session;
mod io;
mod math;
mod message;
mod net;

View File

@ -0,0 +1,63 @@
// Copyright 2015-2017 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/>.
use std::io;
use std::net::SocketAddr;
use std::time::Duration;
use std::collections::BTreeSet;
use futures::{Future, Poll};
use tokio_core::reactor::Handle;
use tokio_core::net::TcpStream;
use ethkey::KeyPair;
use key_server_cluster::{Error, NodeId};
use key_server_cluster::io::{accept_handshake, Handshake, Deadline, deadline};
use key_server_cluster::net::Connection;
/// Create future for accepting incoming connection.
pub fn accept_connection(address: SocketAddr, stream: TcpStream, handle: &Handle, self_key_pair: KeyPair, trusted_nodes: BTreeSet<NodeId>) -> Deadline<AcceptConnection> {
let accept = AcceptConnection {
handshake: accept_handshake(stream, self_key_pair, trusted_nodes),
address: address,
};
deadline(Duration::new(5, 0), handle, accept).expect("Failed to create timeout")
}
/// Future for accepting incoming connection.
pub struct AcceptConnection {
handshake: Handshake<TcpStream>,
address: SocketAddr,
}
impl Future for AcceptConnection {
type Item = Result<Connection, Error>;
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let (stream, result) = try_ready!(self.handshake.poll());
let result = match result {
Ok(result) => result,
Err(err) => return Ok(Err(err).into()),
};
let connection = Connection {
stream: stream.into(),
address: self.address,
node_id: result.node_id,
key: result.shared_key,
};
Ok(Ok(connection).into())
}
}

View File

@ -0,0 +1,90 @@
// Copyright 2015-2017 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/>.
use std::collections::BTreeSet;
use std::io;
use std::time::Duration;
use std::net::SocketAddr;
use futures::{Future, Poll, Async};
use tokio_core::reactor::Handle;
use tokio_core::net::{TcpStream, TcpStreamNew};
use ethkey::KeyPair;
use key_server_cluster::{Error, NodeId};
use key_server_cluster::io::{handshake, Handshake, Deadline, deadline};
use key_server_cluster::net::Connection;
/// Create future for connecting to other node.
pub fn connect(address: &SocketAddr, handle: &Handle, self_key_pair: KeyPair, trusted_nodes: BTreeSet<NodeId>) -> Deadline<Connect> {
let connect = Connect {
state: ConnectState::TcpConnect(TcpStream::connect(address, handle)),
address: address.clone(),
self_key_pair: self_key_pair,
trusted_nodes: trusted_nodes,
};
deadline(Duration::new(5, 0), handle, connect).expect("Failed to create timeout")
}
enum ConnectState {
TcpConnect(TcpStreamNew),
Handshake(Handshake<TcpStream>),
Connected,
}
/// Future for connecting to other node.
pub struct Connect {
state: ConnectState,
address: SocketAddr,
self_key_pair: KeyPair,
trusted_nodes: BTreeSet<NodeId>,
}
impl Future for Connect {
type Item = Result<Connection, Error>;
type Error = io::Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let (next, result) = match self.state {
ConnectState::TcpConnect(ref mut future) => {
let stream = try_ready!(future.poll());
let handshake = handshake(stream, self.self_key_pair.clone(), self.trusted_nodes.clone());
(ConnectState::Handshake(handshake), Async::NotReady)
},
ConnectState::Handshake(ref mut future) => {
let (stream, result) = try_ready!(future.poll());
let result = match result {
Ok(result) => result,
Err(err) => return Ok(Async::Ready(Err(err))),
};
let connection = Connection {
stream: stream.into(),
address: self.address,
node_id: result.node_id,
key: result.shared_key,
};
(ConnectState::Connected, Async::Ready(Ok(connection)))
},
ConnectState::Connected => panic!("poll Connect after it's done"),
};
self.state = next;
match result {
// by polling again, we register new future
Async::NotReady => self.poll(),
result => Ok(result)
}
}
}

View File

@ -0,0 +1,32 @@
// Copyright 2015-2017 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/>.
use std::net;
use ethkey::Secret;
use key_server_cluster::NodeId;
use key_server_cluster::io::SharedTcpStream;
/// Established connection data
pub struct Connection {
/// Peer address.
pub address: net::SocketAddr,
/// Connection stream.
pub stream: SharedTcpStream,
/// Peer node id.
pub node_id: NodeId,
/// Encryption key.
pub key: Secret,
}

View File

@ -0,0 +1,23 @@
// Copyright 2015-2017 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/>.
mod accept_connection;
mod connect;
mod connection;
pub use self::accept_connection::{AcceptConnection, accept_connection};
pub use self::connect::{Connect, connect};
pub use self::connection::Connection;

View File

@ -15,15 +15,34 @@
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::path::PathBuf;
use std::collections::BTreeMap;
use serde_json;
use ethkey::{Secret, Public};
use util::Database;
use types::all::{Error, ServiceConfiguration, DocumentAddress, DocumentKey};
use types::all::{Error, ServiceConfiguration, DocumentAddress, NodeId};
use serialization::{SerializablePublic, SerializableSecret};
#[derive(Debug, Clone, PartialEq)]
/// Encrypted key share, stored by key storage on the single key server.
pub struct DocumentKeyShare {
/// Decryption threshold (at least threshold + 1 nodes are required to decrypt data).
pub threshold: usize,
/// Nodes ids numbers.
pub id_numbers: BTreeMap<NodeId, Secret>,
/// Node secret share.
pub secret_share: Secret,
/// Common (shared) encryption point.
pub common_point: Public,
/// Encrypted point.
pub encrypted_point: Public,
}
/// Document encryption keys storage
pub trait KeyStorage: Send + Sync {
/// Insert document encryption key
fn insert(&self, document: DocumentAddress, key: DocumentKey) -> Result<(), Error>;
fn insert(&self, document: DocumentAddress, key: DocumentKeyShare) -> Result<(), Error>;
/// Get document encryption key
fn get(&self, document: &DocumentAddress) -> Result<DocumentKey, Error>;
fn get(&self, document: &DocumentAddress) -> Result<DocumentKeyShare, Error>;
}
/// Persistent document encryption keys storage
@ -31,6 +50,21 @@ pub struct PersistentKeyStorage {
db: Database,
}
#[derive(Serialize, Deserialize)]
/// Encrypted key share, as it is stored by key storage on the single key server.
struct SerializableDocumentKeyShare {
/// Decryption threshold (at least threshold + 1 nodes are required to decrypt data).
pub threshold: usize,
/// Nodes ids numbers.
pub id_numbers: BTreeMap<SerializablePublic, SerializableSecret>,
/// Node secret share.
pub secret_share: SerializableSecret,
/// Common (shared) encryption point.
pub common_point: SerializablePublic,
/// Encrypted point.
pub encrypted_point: SerializablePublic,
}
impl PersistentKeyStorage {
/// Create new persistent document encryption keys storage
pub fn new(config: &ServiceConfiguration) -> Result<Self, Error> {
@ -45,41 +79,71 @@ impl PersistentKeyStorage {
}
impl KeyStorage for PersistentKeyStorage {
fn insert(&self, document: DocumentAddress, key: DocumentKey) -> Result<(), Error> {
fn insert(&self, document: DocumentAddress, key: DocumentKeyShare) -> Result<(), Error> {
let key: SerializableDocumentKeyShare = key.into();
let key = serde_json::to_vec(&key).map_err(|e| Error::Database(e.to_string()))?;
let mut batch = self.db.transaction();
batch.put(None, &document, &key);
self.db.write(batch).map_err(Error::Database)
}
fn get(&self, document: &DocumentAddress) -> Result<DocumentKey, Error> {
fn get(&self, document: &DocumentAddress) -> Result<DocumentKeyShare, Error> {
self.db.get(None, document)
.map_err(Error::Database)?
.ok_or(Error::DocumentNotFound)
.map(|key| key.to_vec())
.and_then(|key| serde_json::from_slice::<SerializableDocumentKeyShare>(&key).map_err(|e| Error::Database(e.to_string())))
.map(Into::into)
}
}
impl From<DocumentKeyShare> for SerializableDocumentKeyShare {
fn from(key: DocumentKeyShare) -> Self {
SerializableDocumentKeyShare {
threshold: key.threshold,
id_numbers: key.id_numbers.into_iter().map(|(k, v)| (k.into(), v.into())).collect(),
secret_share: key.secret_share.into(),
common_point: key.common_point.into(),
encrypted_point: key.encrypted_point.into(),
}
}
}
impl From<SerializableDocumentKeyShare> for DocumentKeyShare {
fn from(key: SerializableDocumentKeyShare) -> Self {
DocumentKeyShare {
threshold: key.threshold,
id_numbers: key.id_numbers.into_iter().map(|(k, v)| (k.into(), v.into())).collect(),
secret_share: key.secret_share.into(),
common_point: key.common_point.into(),
encrypted_point: key.encrypted_point.into(),
}
}
}
#[cfg(test)]
pub mod tests {
use std::collections::HashMap;
use std::collections::{BTreeMap, HashMap};
use parking_lot::RwLock;
use devtools::RandomTempPath;
use super::super::types::all::{Error, ServiceConfiguration, DocumentAddress, DocumentKey};
use super::{KeyStorage, PersistentKeyStorage};
use ethkey::{Random, Generator};
use super::super::types::all::{Error, NodeAddress, ServiceConfiguration, ClusterConfiguration,
DocumentAddress, EncryptionConfiguration};
use super::{KeyStorage, PersistentKeyStorage, DocumentKeyShare};
#[derive(Default)]
/// In-memory document encryption keys storage
pub struct DummyKeyStorage {
keys: RwLock<HashMap<DocumentAddress, DocumentKey>>,
keys: RwLock<HashMap<DocumentAddress, DocumentKeyShare>>,
}
impl KeyStorage for DummyKeyStorage {
fn insert(&self, document: DocumentAddress, key: DocumentKey) -> Result<(), Error> {
fn insert(&self, document: DocumentAddress, key: DocumentKeyShare) -> Result<(), Error> {
self.keys.write().insert(document, key);
Ok(())
}
fn get(&self, document: &DocumentAddress) -> Result<DocumentKey, Error> {
fn get(&self, document: &DocumentAddress) -> Result<DocumentKeyShare, Error> {
self.keys.read().get(document).cloned().ok_or(Error::DocumentNotFound)
}
}
@ -88,15 +152,46 @@ pub mod tests {
fn persistent_key_storage() {
let path = RandomTempPath::create_dir();
let config = ServiceConfiguration {
listener_addr: "0.0.0.0".to_owned(),
listener_port: 8082,
listener_address: NodeAddress {
address: "0.0.0.0".to_owned(),
port: 8082,
},
data_path: path.as_str().to_owned(),
cluster_config: ClusterConfiguration {
threads: 1,
self_private: (**Random.generate().unwrap().secret().clone()).into(),
listener_address: NodeAddress {
address: "0.0.0.0".to_owned(),
port: 8083,
},
nodes: BTreeMap::new(),
allow_connecting_to_higher_nodes: false,
encryption_config: EncryptionConfiguration {
key_check_timeout_ms: 10,
},
},
};
let key1 = DocumentAddress::from(1);
let value1: DocumentKey = vec![0x77, 0x88];
let value1 = DocumentKeyShare {
threshold: 100,
id_numbers: vec![
(Random.generate().unwrap().public().clone(), Random.generate().unwrap().secret().clone())
].into_iter().collect(),
secret_share: Random.generate().unwrap().secret().clone(),
common_point: Random.generate().unwrap().public().clone(),
encrypted_point: Random.generate().unwrap().public().clone(),
};
let key2 = DocumentAddress::from(2);
let value2: DocumentKey = vec![0x11, 0x22];
let value2 = DocumentKeyShare {
threshold: 200,
id_numbers: vec![
(Random.generate().unwrap().public().clone(), Random.generate().unwrap().secret().clone())
].into_iter().collect(),
secret_share: Random.generate().unwrap().secret().clone(),
common_point: Random.generate().unwrap().public().clone(),
encrypted_point: Random.generate().unwrap().public().clone(),
};
let key3 = DocumentAddress::from(3);
let key_storage = PersistentKeyStorage::new(&config).unwrap();

View File

@ -14,10 +14,22 @@
// 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;
#[macro_use]
extern crate log;
#[macro_use]
extern crate futures;
extern crate futures_cpupool;
extern crate hyper;
extern crate parking_lot;
extern crate rustc_serialize;
extern crate serde;
extern crate serde_json;
#[macro_use]
extern crate serde_derive;
extern crate tokio_core;
extern crate tokio_service;
extern crate tokio_proto;
extern crate url;
extern crate ethcore_devtools as devtools;
@ -38,16 +50,19 @@ mod acl_storage;
mod http_listener;
mod key_server;
mod key_storage;
mod serialization;
pub use types::all::{DocumentAddress, DocumentKey, DocumentEncryptedKey, RequestSignature, Public,
Error, ServiceConfiguration};
Error, NodeAddress, ServiceConfiguration, ClusterConfiguration, EncryptionConfiguration};
pub use traits::{KeyServer};
/// Start new key server instance
pub fn start(config: ServiceConfiguration) -> Result<Box<KeyServer>, Error> {
let acl_storage = acl_storage::DummyAclStorage::default();
let key_storage = key_storage::PersistentKeyStorage::new(&config)?;
let key_server = key_server::KeyServerImpl::new(acl_storage, key_storage);
use std::sync::Arc;
let acl_storage = Arc::new(acl_storage::DummyAclStorage::default());
let key_storage = Arc::new(key_storage::PersistentKeyStorage::new(&config)?);
let key_server = key_server::KeyServerImpl::new(&config.cluster_config, acl_storage, key_storage)?;
let listener = http_listener::KeyServerHttpListener::start(config, key_server)?;
Ok(Box::new(listener))
}

View File

@ -0,0 +1,260 @@
// Copyright 2015-2017 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/>.
use std::fmt;
use std::cmp::{Ord, PartialOrd, Ordering};
use std::ops::Deref;
use rustc_serialize::hex::ToHex;
use serde::{Serialize, Deserialize, Serializer, Deserializer};
use serde::de::{Visitor, Error as SerdeError};
use ethkey::{Public, Secret, Signature};
use util::H256;
#[derive(Clone, Debug)]
/// Serializable Signature.
pub struct SerializableSignature(Signature);
impl<T> From<T> for SerializableSignature where Signature: From<T> {
fn from(s: T) -> SerializableSignature {
SerializableSignature(s.into())
}
}
impl Into<Signature> for SerializableSignature {
fn into(self) -> Signature {
self.0
}
}
impl Deref for SerializableSignature {
type Target = Signature;
fn deref(&self) -> &Signature {
&self.0
}
}
impl Serialize for SerializableSignature {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> where S: Serializer {
serializer.serialize_str(&(*self.0).to_hex())
}
}
impl Deserialize for SerializableSignature {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> where D: Deserializer {
struct HashVisitor;
impl Visitor for HashVisitor {
type Value = SerializableSignature;
fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
write!(formatter, "a hex-encoded Signature")
}
fn visit_str<E>(self, value: &str) -> Result<Self::Value, E> where E: SerdeError {
value.parse().map(|s| SerializableSignature(s)).map_err(SerdeError::custom)
}
fn visit_string<E>(self, value: String) -> Result<Self::Value, E> where E: SerdeError {
self.visit_str(value.as_ref())
}
}
deserializer.deserialize(HashVisitor)
}
}
#[derive(Clone, Debug)]
/// Serializable H256.
pub struct SerializableH256(H256);
impl<T> From<T> for SerializableH256 where H256: From<T> {
fn from(s: T) -> SerializableH256 {
SerializableH256(s.into())
}
}
impl Into<H256> for SerializableH256 {
fn into(self) -> H256 {
self.0
}
}
impl Deref for SerializableH256 {
type Target = H256;
fn deref(&self) -> &H256 {
&self.0
}
}
impl Serialize for SerializableH256 {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> where S: Serializer {
serializer.serialize_str(&(*self.0).to_hex())
}
}
impl Deserialize for SerializableH256 {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> where D: Deserializer {
struct HashVisitor;
impl Visitor for HashVisitor {
type Value = SerializableH256;
fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
write!(formatter, "a hex-encoded H256")
}
fn visit_str<E>(self, value: &str) -> Result<Self::Value, E> where E: SerdeError {
value.parse().map(|s| SerializableH256(s)).map_err(SerdeError::custom)
}
fn visit_string<E>(self, value: String) -> Result<Self::Value, E> where E: SerdeError {
self.visit_str(value.as_ref())
}
}
deserializer.deserialize(HashVisitor)
}
}
#[derive(Clone, Debug)]
/// Serializable EC scalar/secret key.
pub struct SerializableSecret(Secret);
impl<T> From<T> for SerializableSecret where Secret: From<T> {
fn from(s: T) -> SerializableSecret {
SerializableSecret(s.into())
}
}
impl Into<Secret> for SerializableSecret {
fn into(self) -> Secret {
self.0
}
}
impl Deref for SerializableSecret {
type Target = Secret;
fn deref(&self) -> &Secret {
&self.0
}
}
impl Serialize for SerializableSecret {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> where S: Serializer {
serializer.serialize_str(&(*self.0).to_hex())
}
}
impl Deserialize for SerializableSecret {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> where D: Deserializer {
struct HashVisitor;
impl Visitor for HashVisitor {
type Value = SerializableSecret;
fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
write!(formatter, "a hex-encoded EC scalar")
}
fn visit_str<E>(self, value: &str) -> Result<Self::Value, E> where E: SerdeError {
value.parse().map(|s| SerializableSecret(s)).map_err(SerdeError::custom)
}
fn visit_string<E>(self, value: String) -> Result<Self::Value, E> where E: SerdeError {
self.visit_str(value.as_ref())
}
}
deserializer.deserialize(HashVisitor)
}
}
#[derive(Clone, Debug)]
/// Serializable EC point/public key.
pub struct SerializablePublic(Public);
impl<T> From<T> for SerializablePublic where Public: From<T> {
fn from(p: T) -> SerializablePublic {
SerializablePublic(p.into())
}
}
impl Into<Public> for SerializablePublic {
fn into(self) -> Public {
self.0
}
}
impl Deref for SerializablePublic {
type Target = Public;
fn deref(&self) -> &Public {
&self.0
}
}
impl Eq for SerializablePublic { }
impl PartialEq for SerializablePublic {
fn eq(&self, other: &SerializablePublic) -> bool {
self.0.eq(&other.0)
}
}
impl Ord for SerializablePublic {
fn cmp(&self, other: &SerializablePublic) -> Ordering {
self.0.cmp(&other.0)
}
}
impl PartialOrd for SerializablePublic {
fn partial_cmp(&self, other: &SerializablePublic) -> Option<Ordering> {
self.0.partial_cmp(&other.0)
}
}
impl Serialize for SerializablePublic {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> where S: Serializer {
serializer.serialize_str(&(*self.0).to_hex())
}
}
impl Deserialize for SerializablePublic {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error> where D: Deserializer {
struct HashVisitor;
impl Visitor for HashVisitor {
type Value = SerializablePublic;
fn expecting(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
write!(formatter, "a hex-encoded EC point")
}
fn visit_str<E>(self, value: &str) -> Result<Self::Value, E> where E: SerdeError {
value.parse().map(|s| SerializablePublic(s)).map_err(SerdeError::custom)
}
fn visit_string<E>(self, value: String) -> Result<Self::Value, E> where E: SerdeError {
self.visit_str(value.as_ref())
}
}
deserializer.deserialize(HashVisitor)
}
}

View File

@ -19,6 +19,8 @@ use types::all::{Error, RequestSignature, DocumentAddress, DocumentEncryptedKey}
#[ipc(client_ident="RemoteKeyServer")]
/// Secret store key server
pub trait KeyServer: Send + Sync {
/// Generate encryption key for given document.
fn generate_document_key(&self, signature: &RequestSignature, document: &DocumentAddress, threshold: usize) -> Result<DocumentEncryptedKey, Error>;
/// Request encryption key of given document for given requestor
fn document_key(&self, signature: &RequestSignature, document: &DocumentAddress) -> Result<DocumentEncryptedKey, Error>;
}

View File

@ -15,10 +15,14 @@
// along with Parity. If not, see <http://www.gnu.org/licenses/>.
use std::fmt;
use std::collections::BTreeMap;
use ethkey;
use util;
use key_server_cluster;
/// Node id.
pub type NodeId = ethkey::Public;
/// Document address type.
pub type DocumentAddress = util::H256;
/// Document key type.
@ -46,16 +50,53 @@ pub enum Error {
Internal(String),
}
#[derive(Debug)]
#[binary]
/// Secret store configuration
pub struct NodeAddress {
/// IP address.
pub address: String,
/// IP port.
pub port: u16,
}
#[derive(Debug)]
#[binary]
/// Secret store configuration
pub struct ServiceConfiguration {
/// Interface to listen to
pub listener_addr: String,
/// Port to listen to
pub listener_port: u16,
/// HTTP listener address.
pub listener_address: NodeAddress,
/// Data directory path for secret store
pub data_path: String,
/// Cluster configuration.
pub cluster_config: ClusterConfiguration,
}
#[derive(Debug)]
#[binary]
/// Key server cluster configuration
pub struct ClusterConfiguration {
/// Number of threads reserved by cluster.
pub threads: usize,
/// Private key this node holds.
pub self_private: Vec<u8>, // holds ethkey::Secret
/// This node address.
pub listener_address: NodeAddress,
/// All cluster nodes addresses.
pub nodes: BTreeMap<ethkey::Public, NodeAddress>,
/// Allow outbound connections to 'higher' nodes.
/// This is useful for tests, but slower a bit for production.
pub allow_connecting_to_higher_nodes: bool,
/// Encryption session configuration.
pub encryption_config: EncryptionConfiguration,
}
#[derive(Clone, Debug)]
#[binary]
/// Encryption parameters.
pub struct EncryptionConfiguration {
/// Key check timeout.
pub key_check_timeout_ms: u64,
}
impl fmt::Display for Error {
@ -70,6 +111,18 @@ impl fmt::Display for Error {
}
}
impl From<ethkey::Error> for Error {
fn from(err: ethkey::Error) -> Self {
Error::Internal(err.into())
}
}
impl From<key_server_cluster::Error> for Error {
fn from(err: key_server_cluster::Error) -> Self {
Error::Internal(err.into())
}
}
impl Into<String> for Error {
fn into(self) -> String {
format!("{}", self)