// Copyright 2015-2018 Parity Technologies (UK) Ltd. // This file is part of Parity. // Parity is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // Parity is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with Parity. If not, see . //! Hash-addressed content resolver & fetcher. use std::{io, fs}; use std::io::Write; use std::sync::Arc; use std::path::PathBuf; use hash::keccak_buffer; use fetch::{self, Fetch}; use futures::{Future, IntoFuture}; use parity_runtime::Executor; use urlhint::{URLHintContract, URLHint, URLHintResult}; use registrar::{RegistrarClient, Asynchronous}; use ethereum_types::H256; /// API for fetching by hash. pub trait HashFetch: Send + Sync + 'static { /// Fetch hash-addressed content. /// Parameters: /// 1. `hash` - content hash /// 2. `on_done` - callback function invoked when the content is ready (or there was error during fetch) /// /// This function may fail immediately when fetch cannot be initialized or content cannot be resolved. fn fetch(&self, hash: H256, abort: fetch::Abort, on_done: Box) + Send>); } /// Hash-fetching error. #[derive(Debug)] pub enum Error { /// Hash could not be resolved to a valid content address. NoResolution, /// Downloaded content hash does not match. HashMismatch { /// Expected hash expected: H256, /// Computed hash got: H256, }, /// Server didn't respond with OK status. InvalidStatus, /// IO Error while validating hash. IO(io::Error), /// Error during fetch. Fetch(fetch::Error), } #[cfg(test)] impl PartialEq for Error { fn eq(&self, other: &Self) -> bool { use Error::*; match (self, other) { (&HashMismatch { expected, got }, &HashMismatch { expected: e, got: g }) => { expected == e && got == g }, (&NoResolution, &NoResolution) => true, (&InvalidStatus, &InvalidStatus) => true, (&IO(_), &IO(_)) => true, (&Fetch(_), &Fetch(_)) => true, _ => false, } } } impl From for Error { fn from(error: fetch::Error) -> Self { Error::Fetch(error) } } impl From for Error { fn from(error: io::Error) -> Self { Error::IO(error) } } fn validate_hash(path: PathBuf, hash: H256, body: fetch::BodyReader) -> Result { // Read the response let mut reader = io::BufReader::new(body); let mut writer = io::BufWriter::new(fs::File::create(&path)?); io::copy(&mut reader, &mut writer)?; writer.flush()?; // And validate the hash let mut file_reader = io::BufReader::new(fs::File::open(&path)?); let content_hash = keccak_buffer(&mut file_reader)?; if content_hash != hash { Err(Error::HashMismatch{ got: content_hash, expected: hash }) } else { Ok(path) } } /// Default Hash-fetching client using on-chain contract to resolve hashes to URLs. pub struct Client { contract: URLHintContract, fetch: F, executor: Executor, random_path: Arc PathBuf + Sync + Send>, } impl Client { /// Creates new instance of the `Client` given on-chain contract client, fetch service and task runner. pub fn with_fetch(contract: Arc>, fetch: F, executor: Executor) -> Self { Client { contract: URLHintContract::new(contract), fetch: fetch, executor: executor, random_path: Arc::new(random_temp_path), } } } impl HashFetch for Client { fn fetch(&self, hash: H256, abort: fetch::Abort, on_done: Box) + Send>) { debug!(target: "fetch", "Fetching: {:?}", hash); let random_path = self.random_path.clone(); let remote_fetch = self.fetch.clone(); let future = self.contract.resolve(hash) .map_err(|e| { warn!("Error resolving URL: {}", e); Error::NoResolution }) .and_then(|maybe_url| maybe_url.ok_or(Error::NoResolution)) .map(|content| match content { URLHintResult::Dapp(dapp) => { dapp.url() }, URLHintResult::GithubDapp(content) => { content.url }, URLHintResult::Content(content) => { content.url }, }) .into_future() .and_then(move |url| { debug!(target: "fetch", "Resolved {:?} to {:?}. Fetching...", hash, url); remote_fetch.get(&url, abort).from_err() }) .and_then(move |response| { if !response.is_success() { Err(Error::InvalidStatus) } else { Ok(response) } }) .and_then(move |response| { debug!(target: "fetch", "Content fetched, validating hash ({:?})", hash); let path = random_path(); let res = validate_hash(path.clone(), hash, fetch::BodyReader::new(response)); if let Err(ref err) = res { trace!(target: "fetch", "Error: {:?}", err); // Remove temporary file in case of error let _ = fs::remove_file(&path); } res }) .then(move |res| { on_done(res); Ok(()) as Result<(), ()> }); self.executor.spawn(future); } } fn random_temp_path() -> PathBuf { use ::rand::Rng; use ::std::env; let mut rng = ::rand::OsRng::new().expect("Reliable random source is required to work."); let file: String = rng.gen_ascii_chars().take(12).collect(); let mut path = env::temp_dir(); path.push(file); path } #[cfg(test)] mod tests { use fake_fetch::FakeFetch; use rustc_hex::FromHex; use std::sync::{Arc, mpsc}; use parking_lot::Mutex; use parity_runtime::Executor; use urlhint::tests::{FakeRegistrar, URLHINT}; use super::{Error, Client, HashFetch, random_temp_path}; fn registrar() -> FakeRegistrar { let mut registrar = FakeRegistrar::new(); registrar.responses = Mutex::new(vec![ Ok(format!("000000000000000000000000{}", URLHINT).from_hex().unwrap()), Ok("00000000000000000000000000000000000000000000000000000000000000600000000000000000000000000000000000000000000000000000000000000000000000000000000000000000deadcafebeefbeefcafedeaddeedfeedffffffff000000000000000000000000000000000000000000000000000000000000003c68747470733a2f2f7061726974792e696f2f6173736574732f696d616765732f657468636f72652d626c61636b2d686f72697a6f6e74616c2e706e6700000000".from_hex().unwrap()), ]); registrar } #[test] fn should_return_error_if_hash_not_found() { // given let contract = Arc::new(FakeRegistrar::new()); let fetch = FakeFetch::new(None::); let client = Client::with_fetch(contract.clone(), fetch, Executor::new_sync()); // when let (tx, rx) = mpsc::channel(); client.fetch(2.into(), Default::default(), Box::new(move |result| { tx.send(result).unwrap(); })); // then let result = rx.recv().unwrap(); assert_eq!(result.unwrap_err(), Error::NoResolution); } #[test] fn should_return_error_if_response_is_not_successful() { // given let registrar = Arc::new(registrar()); let fetch = FakeFetch::new(None::); let client = Client::with_fetch(registrar.clone(), fetch, Executor::new_sync()); // when let (tx, rx) = mpsc::channel(); client.fetch(2.into(), Default::default(), Box::new(move |result| { tx.send(result).unwrap(); })); // then let result = rx.recv().unwrap(); assert_eq!(result.unwrap_err(), Error::InvalidStatus); } #[test] fn should_return_hash_mismatch() { // given let registrar = Arc::new(registrar()); let fetch = FakeFetch::new(Some(1)); let mut client = Client::with_fetch(registrar.clone(), fetch, Executor::new_sync()); let path = random_temp_path(); let path2 = path.clone(); client.random_path = Arc::new(move || path2.clone()); // when let (tx, rx) = mpsc::channel(); client.fetch(2.into(), Default::default(), Box::new(move |result| { tx.send(result).unwrap(); })); // then let result = rx.recv().unwrap(); let hash = "0x2be00befcf008bc0e7d9cdefc194db9c75352e8632f48498b5a6bfce9f02c88e".into(); assert_eq!(result.unwrap_err(), Error::HashMismatch { expected: 2.into(), got: hash }); assert!(!path.exists(), "Temporary file should be removed."); } #[test] fn should_return_path_if_hash_matches() { // given let registrar = Arc::new(registrar()); let fetch = FakeFetch::new(Some(1)); let client = Client::with_fetch(registrar.clone(), fetch, Executor::new_sync()); // when let (tx, rx) = mpsc::channel(); client.fetch("0x2be00befcf008bc0e7d9cdefc194db9c75352e8632f48498b5a6bfce9f02c88e".into(), Default::default(), Box::new(move |result| { tx.send(result).unwrap(); })); // then let result = rx.recv().unwrap(); assert!(result.is_ok(), "Should return path, got: {:?}", result); } }