Back-references for the on-demand service (#5573)

* header back-references for on demand

* initial back-reference implementation for on demand requests

* answer requests from cache

* answer requests from cache, add tests

* strongly typed responses for vectors of homogeneous requests

* fix fallout in RPC without optimizing
This commit is contained in:
Robert Habermeier 2017-05-23 06:39:25 -04:00 committed by Arkadiy Paronyan
parent aa41b48ba0
commit 386cdb830d
9 changed files with 778 additions and 426 deletions

View File

@ -22,24 +22,19 @@ use std::collections::HashMap;
use std::marker::PhantomData; use std::marker::PhantomData;
use std::sync::Arc; use std::sync::Arc;
use ethcore::basic_account::BasicAccount;
use ethcore::encoded;
use ethcore::receipt::Receipt;
use ethcore::executed::{Executed, ExecutionError}; use ethcore::executed::{Executed, ExecutionError};
use futures::{future, Async, Poll, Future, BoxFuture}; use futures::{Async, Poll, Future};
use futures::sync::oneshot::{self, Sender, Receiver, Canceled}; use futures::sync::oneshot::{self, Sender, Receiver, Canceled};
use network::PeerId; use network::PeerId;
use rlp::RlpStream; use util::{RwLock, Mutex};
use util::{Bytes, RwLock, Mutex, U256, H256};
use util::sha3::{SHA3_NULL_RLP, SHA3_EMPTY, SHA3_EMPTY_LIST_RLP};
use net::{self, Handler, Status, Capabilities, Announcement, EventContext, BasicContext, ReqId}; use net::{self, Handler, Status, Capabilities, Announcement, EventContext, BasicContext, ReqId};
use cache::Cache; use cache::Cache;
use request::{self as basic_request, Request as NetworkRequest}; use request::{self as basic_request, Request as NetworkRequest};
use self::request::CheckedRequest; use self::request::CheckedRequest;
pub use self::request::{Request, Response}; pub use self::request::{Request, Response, HeaderRef};
#[cfg(test)] #[cfg(test)]
mod tests; mod tests;
@ -75,6 +70,98 @@ struct Pending {
sender: oneshot::Sender<Vec<Response>>, sender: oneshot::Sender<Vec<Response>>,
} }
impl Pending {
// answer as many of the given requests from the supplied cache as possible.
// TODO: support re-shuffling.
fn answer_from_cache(&mut self, cache: &Mutex<Cache>) {
while !self.requests.is_complete() {
let idx = self.requests.num_answered();
match self.requests[idx].respond_local(cache) {
Some(response) => {
self.requests.supply_response_unchecked(&response);
self.update_header_refs(idx, &response);
self.responses.push(response);
}
None => break,
}
}
}
// update header refs if the given response contains a header future requests require for
// verification.
// `idx` is the index of the request the response corresponds to.
fn update_header_refs(&mut self, idx: usize, response: &Response) {
match *response {
Response::HeaderByHash(ref hdr) => {
// fill the header for all requests waiting on this one.
// TODO: could be faster if we stored a map usize => Vec<usize>
// but typical use just has one header request that others
// depend on.
for r in self.requests.iter_mut().skip(idx + 1) {
if r.needs_header().map_or(false, |(i, _)| i == idx) {
r.provide_header(hdr.clone())
}
}
}
_ => {}, // no other responses produce headers.
}
}
// supply a response.
fn supply_response(&mut self, cache: &Mutex<Cache>, response: &basic_request::Response)
-> Result<(), basic_request::ResponseError<self::request::Error>>
{
match self.requests.supply_response(&cache, response) {
Ok(response) => {
let idx = self.responses.len();
self.update_header_refs(idx, &response);
self.responses.push(response);
Ok(())
}
Err(e) => Err(e),
}
}
// if the requests are complete, send the result and consume self.
fn try_complete(self) -> Option<Self> {
if self.requests.is_complete() {
let _ = self.sender.send(self.responses);
None
} else {
Some(self)
}
}
fn fill_unanswered(&mut self) {
self.requests.fill_unanswered();
}
// update the cached network requests.
fn update_net_requests(&mut self) {
use request::IncompleteRequest;
let mut builder = basic_request::RequestBuilder::default();
let num_answered = self.requests.num_answered();
let mut mapping = move |idx| idx - num_answered;
for request in self.requests.iter().skip(num_answered) {
let mut net_req = request.clone().into_net_request();
// all back-references with request index less than `num_answered` have
// been filled by now. all remaining requests point to nothing earlier
// than the next unanswered request.
net_req.adjust_refs(&mut mapping);
builder.push(net_req)
.expect("all back-references to answered requests have been filled; qed");
}
// update pending fields.
let capabilities = guess_capabilities(&self.requests[num_answered..]);
self.net_requests = builder.build();
self.required_capabilities = capabilities;
}
}
// helper to guess capabilities required for a given batch of network requests. // helper to guess capabilities required for a given batch of network requests.
fn guess_capabilities(requests: &[CheckedRequest]) -> Capabilities { fn guess_capabilities(requests: &[CheckedRequest]) -> Capabilities {
let mut caps = Capabilities { let mut caps = Capabilities {
@ -97,16 +184,21 @@ fn guess_capabilities(requests: &[CheckedRequest]) -> Capabilities {
caps.serve_headers = true, caps.serve_headers = true,
CheckedRequest::HeaderByHash(_, _) => CheckedRequest::HeaderByHash(_, _) =>
caps.serve_headers = true, caps.serve_headers = true,
CheckedRequest::Body(ref req, _) => CheckedRequest::Body(ref req, _) => if let Ok(ref hdr) = req.0.as_ref() {
update_since(&mut caps.serve_chain_since, req.header.number()), update_since(&mut caps.serve_chain_since, hdr.number());
CheckedRequest::Receipts(ref req, _) => },
update_since(&mut caps.serve_chain_since, req.0.number()), CheckedRequest::Receipts(ref req, _) => if let Ok(ref hdr) = req.0.as_ref() {
CheckedRequest::Account(ref req, _) => update_since(&mut caps.serve_chain_since, hdr.number());
update_since(&mut caps.serve_state_since, req.header.number()), },
CheckedRequest::Code(ref req, _) => CheckedRequest::Account(ref req, _) => if let Ok(ref hdr) = req.header.as_ref() {
update_since(&mut caps.serve_state_since, req.block_id.1), update_since(&mut caps.serve_state_since, hdr.number());
CheckedRequest::Execution(ref req, _) => },
update_since(&mut caps.serve_state_since, req.header.number()), CheckedRequest::Code(ref req, _) => if let Ok(ref hdr) = req.header.as_ref() {
update_since(&mut caps.serve_state_since, hdr.number());
},
CheckedRequest::Execution(ref req, _) => if let Ok(ref hdr) = req.header.as_ref() {
update_since(&mut caps.serve_state_since, hdr.number());
},
} }
} }
@ -163,158 +255,6 @@ impl OnDemand {
me me
} }
/// Request a header's hash by block number and CHT root hash.
/// Returns the hash.
pub fn hash_by_number(&self, ctx: &BasicContext, req: request::HeaderProof) -> BoxFuture<H256, Canceled> {
let cached = {
let mut cache = self.cache.lock();
cache.block_hash(&req.num())
};
match cached {
Some(hash) => future::ok(hash).boxed(),
None => {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.map(|(h, _)| h)
.boxed()
},
}
}
/// Request a canonical block's chain score.
/// Returns the chain score.
pub fn chain_score_by_number(&self, ctx: &BasicContext, req: request::HeaderProof) -> BoxFuture<U256, Canceled> {
let cached = {
let mut cache = self.cache.lock();
cache.block_hash(&req.num()).and_then(|hash| cache.chain_score(&hash))
};
match cached {
Some(score) => future::ok(score).boxed(),
None => {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.map(|(_, s)| s)
.boxed()
},
}
}
/// Request a canonical block's hash and chain score by number.
/// Returns the hash and chain score.
pub fn hash_and_score_by_number(&self, ctx: &BasicContext, req: request::HeaderProof) -> BoxFuture<(H256, U256), Canceled> {
let cached = {
let mut cache = self.cache.lock();
let hash = cache.block_hash(&req.num());
(
hash.clone(),
hash.and_then(|hash| cache.chain_score(&hash)),
)
};
match cached {
(Some(hash), Some(score)) => future::ok((hash, score)).boxed(),
_ => {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.boxed()
},
}
}
/// Request a header by hash. This is less accurate than by-number because we don't know
/// where in the chain this header lies, and therefore can't find a peer who is supposed to have
/// it as easily.
pub fn header_by_hash(&self, ctx: &BasicContext, req: request::HeaderByHash) -> BoxFuture<encoded::Header, Canceled> {
match { self.cache.lock().block_header(&req.0) } {
Some(hdr) => future::ok(hdr).boxed(),
None => {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.boxed()
},
}
}
/// Request a block, given its header. Block bodies are requestable by hash only,
/// and the header is required anyway to verify and complete the block body
/// -- this just doesn't obscure the network query.
pub fn block(&self, ctx: &BasicContext, req: request::Body) -> BoxFuture<encoded::Block, Canceled> {
// fast path for empty body.
if req.header.transactions_root() == SHA3_NULL_RLP && req.header.uncles_hash() == SHA3_EMPTY_LIST_RLP {
let mut stream = RlpStream::new_list(3);
stream.append_raw(&req.header.into_inner(), 1);
stream.begin_list(0);
stream.begin_list(0);
future::ok(encoded::Block::new(stream.out())).boxed()
} else {
match { self.cache.lock().block_body(&req.hash) } {
Some(body) => {
let mut stream = RlpStream::new_list(3);
let body = body.rlp();
stream.append_raw(&req.header.into_inner(), 1);
stream.append_raw(&body.at(0).as_raw(), 1);
stream.append_raw(&body.at(1).as_raw(), 1);
future::ok(encoded::Block::new(stream.out())).boxed()
}
None => {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.boxed()
}
}
}
}
/// Request the receipts for a block. The header serves two purposes:
/// provide the block hash to fetch receipts for, and for verification of the receipts root.
pub fn block_receipts(&self, ctx: &BasicContext, req: request::BlockReceipts) -> BoxFuture<Vec<Receipt>, Canceled> {
// fast path for empty receipts.
if req.0.receipts_root() == SHA3_NULL_RLP {
return future::ok(Vec::new()).boxed()
}
match { self.cache.lock().block_receipts(&req.0.hash()) } {
Some(receipts) => future::ok(receipts).boxed(),
None => {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.boxed()
},
}
}
/// Request an account by address and block header -- which gives a hash to query and a state root
/// to verify against.
/// `None` here means that no account by the queried key exists in the queried state.
pub fn account(&self, ctx: &BasicContext, req: request::Account) -> BoxFuture<Option<BasicAccount>, Canceled> {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.boxed()
}
/// Request code by address, known code hash, and block header.
pub fn code(&self, ctx: &BasicContext, req: request::Code) -> BoxFuture<Bytes, Canceled> {
// fast path for no code.
if req.code_hash == SHA3_EMPTY {
future::ok(Vec::new()).boxed()
} else {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.boxed()
}
}
/// Request proof-of-execution for a transaction.
pub fn transaction_proof(&self, ctx: &BasicContext, req: request::TransactionProof) -> BoxFuture<ExecutionResult, Canceled> {
self.request(ctx, req)
.expect("request given fully fleshed out; qed")
.boxed()
}
/// Submit a vector of requests to be processed together. /// Submit a vector of requests to be processed together.
/// ///
/// Fails if back-references are not coherent. /// Fails if back-references are not coherent.
@ -332,15 +272,33 @@ impl OnDemand {
let mut builder = basic_request::RequestBuilder::default(); let mut builder = basic_request::RequestBuilder::default();
let responses = Vec::with_capacity(requests.len()); let responses = Vec::with_capacity(requests.len());
for request in requests {
builder.push(CheckedRequest::from(request))?; let mut header_producers = HashMap::new();
for (i, request) in requests.into_iter().enumerate() {
let request = CheckedRequest::from(request);
// ensure that all requests needing headers will get them.
if let Some((idx, field)) = request.needs_header() {
// a request chain with a header back-reference is valid only if it both
// points to a request that returns a header and has the same back-reference
// for the block hash.
match header_producers.get(&idx) {
Some(ref f) if &field == *f => {}
_ => return Err(basic_request::NoSuchOutput),
}
}
if let CheckedRequest::HeaderByHash(ref req, _) = request {
header_producers.insert(i, req.0.clone());
}
builder.push(request)?;
} }
let requests = builder.build(); let requests = builder.build();
let net_requests = requests.clone().map_requests(|req| req.into_net_request()); let net_requests = requests.clone().map_requests(|req| req.into_net_request());
let capabilities = guess_capabilities(requests.requests()); let capabilities = guess_capabilities(requests.requests());
self.pending.write().push(Pending { self.submit_pending(ctx, Pending {
requests: requests, requests: requests,
net_requests: net_requests, net_requests: net_requests,
required_capabilities: capabilities, required_capabilities: capabilities,
@ -348,8 +306,6 @@ impl OnDemand {
sender: sender, sender: sender,
}); });
self.attempt_dispatch(ctx);
Ok(receiver) Ok(receiver)
} }
@ -430,6 +386,19 @@ impl OnDemand {
}) })
.collect(); // `pending` now contains all requests we couldn't dispatch. .collect(); // `pending` now contains all requests we couldn't dispatch.
} }
// submit a pending request set. attempts to answer from cache before
// going to the network. if complete, sends response and consumes the struct.
fn submit_pending(&self, ctx: &BasicContext, mut pending: Pending) {
// answer as many requests from cache as we can, and schedule for dispatch
// if incomplete.
pending.answer_from_cache(&*self.cache);
if let Some(mut pending) = pending.try_complete() {
pending.update_net_requests();
self.pending.write().push(pending);
self.attempt_dispatch(ctx);
}
}
} }
impl Handler for OnDemand { impl Handler for OnDemand {
@ -468,23 +437,17 @@ impl Handler for OnDemand {
} }
fn on_responses(&self, ctx: &EventContext, req_id: ReqId, responses: &[basic_request::Response]) { fn on_responses(&self, ctx: &EventContext, req_id: ReqId, responses: &[basic_request::Response]) {
use request::IncompleteRequest;
let mut pending = match self.in_transit.write().remove(&req_id) { let mut pending = match self.in_transit.write().remove(&req_id) {
Some(req) => req, Some(req) => req,
None => return, None => return,
}; };
// for each incoming response // for each incoming response
// 1. ensure verification data filled. (still TODO since on_demand doesn't use back-references yet) // 1. ensure verification data filled.
// 2. pending.requests.supply_response // 2. pending.requests.supply_response
// 3. if extracted on-demand response, keep it for later. // 3. if extracted on-demand response, keep it for later.
for response in responses { for response in responses {
match pending.requests.supply_response(&*self.cache, response) { if let Err(e) = pending.supply_response(&*self.cache, response) {
Ok(response) => {
pending.responses.push(response)
}
Err(e) => {
let peer = ctx.peer(); let peer = ctx.peer();
debug!(target: "on_demand", "Peer {} gave bad response: {:?}", peer, e); debug!(target: "on_demand", "Peer {} gave bad response: {:?}", peer, e);
ctx.disable_peer(peer); ctx.disable_peer(peer);
@ -492,39 +455,9 @@ impl Handler for OnDemand {
break; break;
} }
} }
}
pending.requests.fill_unanswered(); pending.fill_unanswered();
if pending.requests.is_complete() { self.submit_pending(ctx.as_basic(), pending);
let _ = pending.sender.send(pending.responses);
return;
}
// update network requests (unless we're done, in which case fulfill the future.)
let mut builder = basic_request::RequestBuilder::default();
let num_answered = pending.requests.num_answered();
let mut mapping = move |idx| idx - num_answered;
for request in pending.requests.requests().iter().skip(num_answered) {
let mut net_req = request.clone().into_net_request();
// all back-references with request index less than `num_answered` have
// been filled by now. all remaining requests point to nothing earlier
// than the next unanswered request.
net_req.adjust_refs(&mut mapping);
builder.push(net_req)
.expect("all back-references to answered requests have been filled; qed");
}
// update pending fields and re-queue.
let capabilities = guess_capabilities(&pending.requests.requests()[num_answered..]);
pending.net_requests = builder.build();
pending.required_capabilities = capabilities;
self.pending.write().push(pending);
self.attempt_dispatch(ctx.as_basic());
} }
fn tick(&self, ctx: &BasicContext) { fn tick(&self, ctx: &BasicContext) {

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@ -26,12 +26,12 @@ use ethcore::receipt::Receipt;
use ethcore::state::{self, ProvedExecution}; use ethcore::state::{self, ProvedExecution};
use ethcore::transaction::SignedTransaction; use ethcore::transaction::SignedTransaction;
use request::{self as net_request, IncompleteRequest, Output, OutputKind}; use request::{self as net_request, IncompleteRequest, CompleteRequest, Output, OutputKind, Field};
use rlp::{RlpStream, UntrustedRlp}; use rlp::{RlpStream, UntrustedRlp};
use util::{Address, Bytes, DBValue, HashDB, Mutex, H256, U256}; use util::{Address, Bytes, DBValue, HashDB, Mutex, H256, U256};
use util::memorydb::MemoryDB; use util::memorydb::MemoryDB;
use util::sha3::Hashable; use util::sha3::{Hashable, SHA3_NULL_RLP, SHA3_EMPTY, SHA3_EMPTY_LIST_RLP};
use util::trie::{Trie, TrieDB, TrieError}; use util::trie::{Trie, TrieDB, TrieError};
const SUPPLIED_MATCHES: &'static str = "supplied responses always match produced requests; enforced by `check_response`; qed"; const SUPPLIED_MATCHES: &'static str = "supplied responses always match produced requests; enforced by `check_response`; qed";
@ -87,6 +87,18 @@ pub trait RequestAdapter {
fn extract_from(Vec<Response>) -> Self::Out; fn extract_from(Vec<Response>) -> Self::Out;
} }
impl<T: RequestArg> RequestAdapter for Vec<T> {
type Out = Vec<T::Out>;
fn make_requests(self) -> Vec<Request> {
self.into_iter().map(RequestArg::make).collect()
}
fn extract_from(r: Vec<Response>) -> Self::Out {
r.into_iter().map(T::extract).collect()
}
}
// helper to implement `RequestArg` and `From` for a single request kind. // helper to implement `RequestArg` and `From` for a single request kind.
macro_rules! impl_single { macro_rules! impl_single {
($variant: ident, $me: ty, $out: ty) => { ($variant: ident, $me: ty, $out: ty) => {
@ -173,6 +185,50 @@ mod impls {
impl_args!(A, B, C, D, E, F, G, H, I, J, K, L,); impl_args!(A, B, C, D, E, F, G, H, I, J, K, L,);
} }
/// A block header to be used for verification.
/// May be stored or an unresolved output of a prior request.
#[derive(Debug, Clone, PartialEq, Eq)]
pub enum HeaderRef {
/// A stored header.
Stored(encoded::Header),
/// An unresolved header. The first item here is the index of the request which
/// will return the header. The second is a back-reference pointing to a block hash
/// which can be used to make requests until that header is resolved.
Unresolved(usize, Field<H256>),
}
impl HeaderRef {
/// Attempt to inspect the header.
pub fn as_ref(&self) -> Result<&encoded::Header, Error> {
match *self {
HeaderRef::Stored(ref hdr) => Ok(hdr),
HeaderRef::Unresolved(idx, _) => Err(Error::UnresolvedHeader(idx)),
}
}
// get the blockhash field to be used in requests.
fn field(&self) -> Field<H256> {
match *self {
HeaderRef::Stored(ref hdr) => Field::Scalar(hdr.hash()),
HeaderRef::Unresolved(_, ref field) => field.clone(),
}
}
// yield the index of the request which will produce the header.
fn needs_header(&self) -> Option<(usize, Field<H256>)> {
match *self {
HeaderRef::Stored(_) => None,
HeaderRef::Unresolved(idx, ref field) => Some((idx, field.clone())),
}
}
}
impl From<encoded::Header> for HeaderRef {
fn from(header: encoded::Header) -> Self {
HeaderRef::Stored(header)
}
}
/// Requests coupled with their required data for verification. /// Requests coupled with their required data for verification.
/// This is used internally but not part of the public API. /// This is used internally but not part of the public API.
#[derive(Clone)] #[derive(Clone)]
@ -192,7 +248,7 @@ impl From<Request> for CheckedRequest {
match req { match req {
Request::HeaderByHash(req) => { Request::HeaderByHash(req) => {
let net_req = net_request::IncompleteHeadersRequest { let net_req = net_request::IncompleteHeadersRequest {
start: net_request::HashOrNumber::Hash(req.0).into(), start: req.0.map(Into::into),
skip: 0, skip: 0,
max: 1, max: 1,
reverse: false, reverse: false,
@ -207,33 +263,33 @@ impl From<Request> for CheckedRequest {
} }
Request::Body(req) => { Request::Body(req) => {
let net_req = net_request::IncompleteBodyRequest { let net_req = net_request::IncompleteBodyRequest {
hash: req.hash.into(), hash: req.0.field(),
}; };
CheckedRequest::Body(req, net_req) CheckedRequest::Body(req, net_req)
} }
Request::Receipts(req) => { Request::Receipts(req) => {
let net_req = net_request::IncompleteReceiptsRequest { let net_req = net_request::IncompleteReceiptsRequest {
hash: req.0.hash().into(), hash: req.0.field(),
}; };
CheckedRequest::Receipts(req, net_req) CheckedRequest::Receipts(req, net_req)
} }
Request::Account(req) => { Request::Account(req) => {
let net_req = net_request::IncompleteAccountRequest { let net_req = net_request::IncompleteAccountRequest {
block_hash: req.header.hash().into(), block_hash: req.header.field(),
address_hash: ::util::Hashable::sha3(&req.address).into(), address_hash: ::util::Hashable::sha3(&req.address).into(),
}; };
CheckedRequest::Account(req, net_req) CheckedRequest::Account(req, net_req)
} }
Request::Code(req) => { Request::Code(req) => {
let net_req = net_request::IncompleteCodeRequest { let net_req = net_request::IncompleteCodeRequest {
block_hash: req.block_id.0.into(), block_hash: req.header.field(),
code_hash: req.code_hash.into(), code_hash: req.code_hash.into(),
}; };
CheckedRequest::Code(req, net_req) CheckedRequest::Code(req, net_req)
} }
Request::Execution(req) => { Request::Execution(req) => {
let net_req = net_request::IncompleteExecutionRequest { let net_req = net_request::IncompleteExecutionRequest {
block_hash: req.header.hash().into(), block_hash: req.header.field(),
from: req.tx.sender(), from: req.tx.sender(),
gas: req.tx.gas, gas: req.tx.gas,
gas_price: req.tx.gas_price, gas_price: req.tx.gas_price,
@ -262,6 +318,119 @@ impl CheckedRequest {
CheckedRequest::Execution(_, req) => NetRequest::Execution(req), CheckedRequest::Execution(_, req) => NetRequest::Execution(req),
} }
} }
/// Whether this needs a header from a prior request.
/// Returns `Some` with the index of the request returning the header
/// and the field giving the hash
/// if so, `None` otherwise.
pub fn needs_header(&self) -> Option<(usize, Field<H256>)> {
match *self {
CheckedRequest::Receipts(ref x, _) => x.0.needs_header(),
CheckedRequest::Body(ref x, _) => x.0.needs_header(),
CheckedRequest::Account(ref x, _) => x.header.needs_header(),
CheckedRequest::Code(ref x, _) => x.header.needs_header(),
CheckedRequest::Execution(ref x, _) => x.header.needs_header(),
_ => None,
}
}
/// Provide a header where one was needed. Should only be called if `needs_header`
/// returns `Some`, and for correctness, only use the header yielded by the correct
/// request.
pub fn provide_header(&mut self, header: encoded::Header) {
match *self {
CheckedRequest::Receipts(ref mut x, _) => x.0 = HeaderRef::Stored(header),
CheckedRequest::Body(ref mut x, _) => x.0 = HeaderRef::Stored(header),
CheckedRequest::Account(ref mut x, _) => x.header = HeaderRef::Stored(header),
CheckedRequest::Code(ref mut x, _) => x.header = HeaderRef::Stored(header),
CheckedRequest::Execution(ref mut x, _) => x.header = HeaderRef::Stored(header),
_ => {},
}
}
/// Attempt to complete the request based on data in the cache.
pub fn respond_local(&self, cache: &Mutex<::cache::Cache>) -> Option<Response> {
match *self {
CheckedRequest::HeaderProof(ref check, _) => {
let mut cache = cache.lock();
cache.block_hash(&check.num)
.and_then(|h| cache.chain_score(&h).map(|s| (h, s)))
.map(|(h, s)| Response::HeaderProof((h, s)))
}
CheckedRequest::HeaderByHash(_, ref req) => {
if let Some(&net_request::HashOrNumber::Hash(ref h)) = req.start.as_ref() {
return cache.lock().block_header(h).map(Response::HeaderByHash);
}
None
}
CheckedRequest::Receipts(ref check, ref req) => {
// empty transactions -> no receipts
if check.0.as_ref().ok().map_or(false, |hdr| hdr.receipts_root() == SHA3_NULL_RLP) {
return Some(Response::Receipts(Vec::new()));
}
req.hash.as_ref()
.and_then(|hash| cache.lock().block_receipts(hash))
.map(Response::Receipts)
}
CheckedRequest::Body(ref check, ref req) => {
// check for empty body.
if let Some(hdr) = check.0.as_ref().ok() {
if hdr.transactions_root() == SHA3_NULL_RLP && hdr.uncles_hash() == SHA3_EMPTY_LIST_RLP {
let mut stream = RlpStream::new_list(3);
stream.append_raw(hdr.rlp().as_raw(), 1);
stream.begin_list(0);
stream.begin_list(0);
return Some(Response::Body(encoded::Block::new(stream.out())));
}
}
// otherwise, check for cached body and header.
let block_hash = req.hash.as_ref()
.cloned()
.or_else(|| check.0.as_ref().ok().map(|hdr| hdr.hash()));
let block_hash = match block_hash {
Some(hash) => hash,
None => return None,
};
let mut cache = cache.lock();
let cached_header;
// can't use as_ref here although it seems like you would be able to:
// it complains about uninitialized `cached_header`.
let block_header = match check.0.as_ref().ok() {
Some(hdr) => Some(hdr),
None => {
cached_header = cache.block_header(&block_hash);
cached_header.as_ref()
}
};
block_header
.and_then(|hdr| cache.block_body(&block_hash).map(|b| (hdr, b)))
.map(|(hdr, body)| {
let mut stream = RlpStream::new_list(3);
let body = body.rlp();
stream.append_raw(&hdr.rlp().as_raw(), 1);
stream.append_raw(&body.at(0).as_raw(), 1);
stream.append_raw(&body.at(1).as_raw(), 1);
Response::Body(encoded::Block::new(stream.out()))
})
}
CheckedRequest::Code(_, ref req) => {
if req.code_hash.as_ref().map_or(false, |&h| h == SHA3_EMPTY) {
Some(Response::Code(Vec::new()))
} else {
None
}
}
_ => None,
}
}
} }
macro_rules! match_me { macro_rules! match_me {
@ -279,37 +448,40 @@ macro_rules! match_me {
} }
impl IncompleteRequest for CheckedRequest { impl IncompleteRequest for CheckedRequest {
type Complete = net_request::CompleteRequest; type Complete = CompleteRequest;
type Response = net_request::Response; type Response = net_request::Response;
/// Check prior outputs against the needed inputs. fn check_outputs<F>(&self, mut f: F) -> Result<(), net_request::NoSuchOutput>
///
/// This is called to ensure consistency of this request with
/// others in the same packet.
fn check_outputs<F>(&self, f: F) -> Result<(), net_request::NoSuchOutput>
where F: FnMut(usize, usize, OutputKind) -> Result<(), net_request::NoSuchOutput> where F: FnMut(usize, usize, OutputKind) -> Result<(), net_request::NoSuchOutput>
{ {
match_me!(*self, (_, ref req) => req.check_outputs(f)) match *self {
CheckedRequest::HeaderProof(_, ref req) => req.check_outputs(f),
CheckedRequest::HeaderByHash(ref check, ref req) => {
req.check_outputs(&mut f)?;
// make sure the output given is definitively a hash.
match check.0 {
Field::BackReference(r, idx) => f(r, idx, OutputKind::Hash),
_ => Ok(()),
}
}
CheckedRequest::Receipts(_, ref req) => req.check_outputs(f),
CheckedRequest::Body(_, ref req) => req.check_outputs(f),
CheckedRequest::Account(_, ref req) => req.check_outputs(f),
CheckedRequest::Code(_, ref req) => req.check_outputs(f),
CheckedRequest::Execution(_, ref req) => req.check_outputs(f),
}
} }
/// Note that this request will produce the following outputs.
fn note_outputs<F>(&self, f: F) where F: FnMut(usize, OutputKind) { fn note_outputs<F>(&self, f: F) where F: FnMut(usize, OutputKind) {
match_me!(*self, (_, ref req) => req.note_outputs(f)) match_me!(*self, (_, ref req) => req.note_outputs(f))
} }
/// Fill fields of the request.
///
/// This function is provided an "output oracle" which allows fetching of
/// prior request outputs.
/// Only outputs previously checked with `check_outputs` may be available.
fn fill<F>(&mut self, f: F) where F: Fn(usize, usize) -> Result<Output, net_request::NoSuchOutput> { fn fill<F>(&mut self, f: F) where F: Fn(usize, usize) -> Result<Output, net_request::NoSuchOutput> {
match_me!(*self, (_, ref mut req) => req.fill(f)) match_me!(*self, (_, ref mut req) => req.fill(f))
} }
/// Will succeed if all fields have been filled, will fail otherwise.
fn complete(self) -> Result<Self::Complete, net_request::NoSuchOutput> { fn complete(self) -> Result<Self::Complete, net_request::NoSuchOutput> {
use ::request::CompleteRequest;
match self { match self {
CheckedRequest::HeaderProof(_, req) => req.complete().map(CompleteRequest::HeaderProof), CheckedRequest::HeaderProof(_, req) => req.complete().map(CompleteRequest::HeaderProof),
CheckedRequest::HeaderByHash(_, req) => req.complete().map(CompleteRequest::Headers), CheckedRequest::HeaderByHash(_, req) => req.complete().map(CompleteRequest::Headers),
@ -333,34 +505,41 @@ impl net_request::CheckedRequest for CheckedRequest {
type Environment = Mutex<::cache::Cache>; type Environment = Mutex<::cache::Cache>;
/// Check whether the response matches (beyond the type). /// Check whether the response matches (beyond the type).
fn check_response(&self, cache: &Mutex<::cache::Cache>, response: &Self::Response) -> Result<Response, Error> { fn check_response(&self, complete: &Self::Complete, cache: &Mutex<::cache::Cache>, response: &Self::Response) -> Result<Response, Error> {
use ::request::Response as NetResponse; use ::request::Response as NetResponse;
// helper for expecting a specific response for a given request. // helper for expecting a specific response for a given request.
macro_rules! expect { macro_rules! expect {
($res: pat => $e: expr) => { ($res: pat => $e: expr) => {{
match *response { match (response, complete) {
$res => $e, $res => $e,
_ => Err(Error::WrongKind), _ => Err(Error::WrongKind),
} }
} }}
} }
// check response against contained prover. // check response against contained prover.
match *self { match *self {
CheckedRequest::HeaderProof(ref prover, _) => expect!(NetResponse::HeaderProof(ref res) => CheckedRequest::HeaderProof(ref prover, _) =>
expect!((&NetResponse::HeaderProof(ref res), _) =>
prover.check_response(cache, &res.proof).map(Response::HeaderProof)), prover.check_response(cache, &res.proof).map(Response::HeaderProof)),
CheckedRequest::HeaderByHash(ref prover, _) => expect!(NetResponse::Headers(ref res) => CheckedRequest::HeaderByHash(ref prover, _) =>
prover.check_response(cache, &res.headers).map(Response::HeaderByHash)), expect!((&NetResponse::Headers(ref res), &CompleteRequest::Headers(ref req)) =>
CheckedRequest::Receipts(ref prover, _) => expect!(NetResponse::Receipts(ref res) => prover.check_response(cache, &req.start, &res.headers).map(Response::HeaderByHash)),
CheckedRequest::Receipts(ref prover, _) =>
expect!((&NetResponse::Receipts(ref res), _) =>
prover.check_response(cache, &res.receipts).map(Response::Receipts)), prover.check_response(cache, &res.receipts).map(Response::Receipts)),
CheckedRequest::Body(ref prover, _) => expect!(NetResponse::Body(ref res) => CheckedRequest::Body(ref prover, _) =>
expect!((&NetResponse::Body(ref res), _) =>
prover.check_response(cache, &res.body).map(Response::Body)), prover.check_response(cache, &res.body).map(Response::Body)),
CheckedRequest::Account(ref prover, _) => expect!(NetResponse::Account(ref res) => CheckedRequest::Account(ref prover, _) =>
expect!((&NetResponse::Account(ref res), _) =>
prover.check_response(cache, &res.proof).map(Response::Account)), prover.check_response(cache, &res.proof).map(Response::Account)),
CheckedRequest::Code(ref prover, _) => expect!(NetResponse::Code(ref res) => CheckedRequest::Code(ref prover, _) =>
prover.check_response(cache, &res.code).map(Response::Code)), expect!((&NetResponse::Code(ref res), &CompleteRequest::Code(ref req)) =>
CheckedRequest::Execution(ref prover, _) => expect!(NetResponse::Execution(ref res) => prover.check_response(cache, &req.code_hash, &res.code).map(Response::Code)),
CheckedRequest::Execution(ref prover, _) =>
expect!((&NetResponse::Execution(ref res), _) =>
prover.check_response(cache, &res.items).map(Response::Execution)), prover.check_response(cache, &res.items).map(Response::Execution)),
} }
} }
@ -387,6 +566,23 @@ pub enum Response {
Execution(super::ExecutionResult), Execution(super::ExecutionResult),
} }
impl net_request::ResponseLike for Response {
fn fill_outputs<F>(&self, mut f: F) where F: FnMut(usize, Output) {
match *self {
Response::HeaderProof((ref hash, _)) => f(0, Output::Hash(*hash)),
Response::Account(None) => {
f(0, Output::Hash(SHA3_EMPTY)); // code hash
f(1, Output::Hash(SHA3_NULL_RLP)); // storage root.
}
Response::Account(Some(ref acc)) => {
f(0, Output::Hash(acc.code_hash));
f(1, Output::Hash(acc.storage_root));
}
_ => {}
}
}
}
/// Errors in verification. /// Errors in verification.
#[derive(Debug, PartialEq)] #[derive(Debug, PartialEq)]
pub enum Error { pub enum Error {
@ -398,6 +594,10 @@ pub enum Error {
Trie(TrieError), Trie(TrieError),
/// Bad inclusion proof /// Bad inclusion proof
BadProof, BadProof,
/// Header by number instead of hash.
HeaderByNumber,
/// Unresolved header reference.
UnresolvedHeader(usize),
/// Wrong header number. /// Wrong header number.
WrongNumber(u64, u64), WrongNumber(u64, u64),
/// Wrong hash. /// Wrong hash.
@ -468,62 +668,63 @@ impl HeaderProof {
/// Request for a header by hash. /// Request for a header by hash.
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, PartialEq, Eq)]
pub struct HeaderByHash(pub H256); pub struct HeaderByHash(pub Field<H256>);
impl HeaderByHash { impl HeaderByHash {
/// Check a response for the header. /// Check a response for the header.
pub fn check_response(&self, cache: &Mutex<::cache::Cache>, headers: &[encoded::Header]) -> Result<encoded::Header, Error> { pub fn check_response(
&self,
cache: &Mutex<::cache::Cache>,
start: &net_request::HashOrNumber,
headers: &[encoded::Header]
) -> Result<encoded::Header, Error> {
let expected_hash = match (self.0, start) {
(Field::Scalar(ref h), &net_request::HashOrNumber::Hash(ref h2)) => {
if h != h2 { return Err(Error::WrongHash(*h, *h2)) }
*h
}
(_, &net_request::HashOrNumber::Hash(h2)) => h2,
_ => return Err(Error::HeaderByNumber),
};
let header = headers.get(0).ok_or(Error::Empty)?; let header = headers.get(0).ok_or(Error::Empty)?;
let hash = header.sha3(); let hash = header.sha3();
match hash == self.0 { match hash == expected_hash {
true => { true => {
cache.lock().insert_block_header(hash, header.clone()); cache.lock().insert_block_header(hash, header.clone());
Ok(header.clone()) Ok(header.clone())
} }
false => Err(Error::WrongHash(self.0, hash)), false => Err(Error::WrongHash(expected_hash, hash)),
} }
} }
} }
/// Request for a block, with header and precomputed hash. /// Request for a block, with header for verification.
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, PartialEq, Eq)]
pub struct Body { pub struct Body(pub HeaderRef);
/// The block's header.
pub header: encoded::Header,
/// The block's hash.
pub hash: H256,
}
impl Body { impl Body {
/// Create a request for a block body from a given header.
pub fn new(header: encoded::Header) -> Self {
let hash = header.hash();
Body {
header: header,
hash: hash,
}
}
/// Check a response for this block body. /// Check a response for this block body.
pub fn check_response(&self, cache: &Mutex<::cache::Cache>, body: &encoded::Body) -> Result<encoded::Block, Error> { pub fn check_response(&self, cache: &Mutex<::cache::Cache>, body: &encoded::Body) -> Result<encoded::Block, Error> {
// check the integrity of the the body against the header // check the integrity of the the body against the header
let header = self.0.as_ref()?;
let tx_root = ::util::triehash::ordered_trie_root(body.rlp().at(0).iter().map(|r| r.as_raw().to_vec())); let tx_root = ::util::triehash::ordered_trie_root(body.rlp().at(0).iter().map(|r| r.as_raw().to_vec()));
if tx_root != self.header.transactions_root() { if tx_root != header.transactions_root() {
return Err(Error::WrongTrieRoot(self.header.transactions_root(), tx_root)); return Err(Error::WrongTrieRoot(header.transactions_root(), tx_root));
} }
let uncles_hash = body.rlp().at(1).as_raw().sha3(); let uncles_hash = body.rlp().at(1).as_raw().sha3();
if uncles_hash != self.header.uncles_hash() { if uncles_hash != header.uncles_hash() {
return Err(Error::WrongHash(self.header.uncles_hash(), uncles_hash)); return Err(Error::WrongHash(header.uncles_hash(), uncles_hash));
} }
// concatenate the header and the body. // concatenate the header and the body.
let mut stream = RlpStream::new_list(3); let mut stream = RlpStream::new_list(3);
stream.append_raw(self.header.rlp().as_raw(), 1); stream.append_raw(header.rlp().as_raw(), 1);
stream.append_raw(body.rlp().at(0).as_raw(), 1); stream.append_raw(body.rlp().at(0).as_raw(), 1);
stream.append_raw(body.rlp().at(1).as_raw(), 1); stream.append_raw(body.rlp().at(1).as_raw(), 1);
cache.lock().insert_block_body(self.hash, body.clone()); cache.lock().insert_block_body(header.hash(), body.clone());
Ok(encoded::Block::new(stream.out())) Ok(encoded::Block::new(stream.out()))
} }
@ -531,12 +732,12 @@ impl Body {
/// Request for a block's receipts with header for verification. /// Request for a block's receipts with header for verification.
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, PartialEq, Eq)]
pub struct BlockReceipts(pub encoded::Header); pub struct BlockReceipts(pub HeaderRef);
impl BlockReceipts { impl BlockReceipts {
/// Check a response with receipts against the stored header. /// Check a response with receipts against the stored header.
pub fn check_response(&self, cache: &Mutex<::cache::Cache>, receipts: &[Receipt]) -> Result<Vec<Receipt>, Error> { pub fn check_response(&self, cache: &Mutex<::cache::Cache>, receipts: &[Receipt]) -> Result<Vec<Receipt>, Error> {
let receipts_root = self.0.receipts_root(); let receipts_root = self.0.as_ref()?.receipts_root();
let found_root = ::util::triehash::ordered_trie_root(receipts.iter().map(|r| ::rlp::encode(r).to_vec())); let found_root = ::util::triehash::ordered_trie_root(receipts.iter().map(|r| ::rlp::encode(r).to_vec()));
match receipts_root == found_root { match receipts_root == found_root {
@ -553,7 +754,7 @@ impl BlockReceipts {
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, PartialEq, Eq)]
pub struct Account { pub struct Account {
/// Header for verification. /// Header for verification.
pub header: encoded::Header, pub header: HeaderRef,
/// Address requested. /// Address requested.
pub address: Address, pub address: Address,
} }
@ -561,7 +762,8 @@ pub struct Account {
impl Account { impl Account {
/// Check a response with an account against the stored header. /// Check a response with an account against the stored header.
pub fn check_response(&self, _: &Mutex<::cache::Cache>, proof: &[Bytes]) -> Result<Option<BasicAccount>, Error> { pub fn check_response(&self, _: &Mutex<::cache::Cache>, proof: &[Bytes]) -> Result<Option<BasicAccount>, Error> {
let state_root = self.header.state_root(); let header = self.header.as_ref()?;
let state_root = header.state_root();
let mut db = MemoryDB::new(); let mut db = MemoryDB::new();
for node in proof { db.insert(&node[..]); } for node in proof { db.insert(&node[..]); }
@ -584,20 +786,25 @@ impl Account {
/// Request for account code. /// Request for account code.
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, PartialEq, Eq)]
pub struct Code { pub struct Code {
/// Block hash, number pair. /// Header reference.
pub block_id: (H256, u64), pub header: HeaderRef,
/// Account's code hash. /// Account's code hash.
pub code_hash: H256, pub code_hash: Field<H256>,
} }
impl Code { impl Code {
/// Check a response with code against the code hash. /// Check a response with code against the code hash.
pub fn check_response(&self, _: &Mutex<::cache::Cache>, code: &[u8]) -> Result<Vec<u8>, Error> { pub fn check_response(
&self,
_: &Mutex<::cache::Cache>,
code_hash: &H256,
code: &[u8]
) -> Result<Vec<u8>, Error> {
let found_hash = code.sha3(); let found_hash = code.sha3();
if found_hash == self.code_hash { if &found_hash == code_hash {
Ok(code.to_vec()) Ok(code.to_vec())
} else { } else {
Err(Error::WrongHash(self.code_hash, found_hash)) Err(Error::WrongHash(*code_hash, found_hash))
} }
} }
} }
@ -608,8 +815,9 @@ pub struct TransactionProof {
/// The transaction to request proof of. /// The transaction to request proof of.
pub tx: SignedTransaction, pub tx: SignedTransaction,
/// Block header. /// Block header.
pub header: encoded::Header, pub header: HeaderRef,
/// Transaction environment info. /// Transaction environment info.
// TODO: it's not really possible to provide this if the header is unknown.
pub env_info: EnvInfo, pub env_info: EnvInfo,
/// Consensus engine. /// Consensus engine.
pub engine: Arc<Engine>, pub engine: Arc<Engine>,
@ -618,7 +826,7 @@ pub struct TransactionProof {
impl TransactionProof { impl TransactionProof {
/// Check the proof, returning the proved execution or indicate that the proof was bad. /// Check the proof, returning the proved execution or indicate that the proof was bad.
pub fn check_response(&self, _: &Mutex<::cache::Cache>, state_items: &[DBValue]) -> Result<super::ExecutionResult, Error> { pub fn check_response(&self, _: &Mutex<::cache::Cache>, state_items: &[DBValue]) -> Result<super::ExecutionResult, Error> {
let root = self.header.state_root(); let root = self.header.as_ref()?.state_root();
let mut env_info = self.env_info.clone(); let mut env_info = self.env_info.clone();
env_info.gas_limit = self.tx.gas.clone(); env_info.gas_limit = self.tx.gas.clone();
@ -697,7 +905,7 @@ mod tests {
let raw_header = encoded::Header::new(::rlp::encode(&header).to_vec()); let raw_header = encoded::Header::new(::rlp::encode(&header).to_vec());
let cache = Mutex::new(make_cache()); let cache = Mutex::new(make_cache());
assert!(HeaderByHash(hash).check_response(&cache, &[raw_header]).is_ok()) assert!(HeaderByHash(hash.into()).check_response(&cache, &hash.into(), &[raw_header]).is_ok())
} }
#[test] #[test]
@ -708,10 +916,7 @@ mod tests {
let mut body_stream = RlpStream::new_list(2); let mut body_stream = RlpStream::new_list(2);
body_stream.begin_list(0).begin_list(0); body_stream.begin_list(0).begin_list(0);
let req = Body { let req = Body(encoded::Header::new(::rlp::encode(&header).to_vec()).into());
header: encoded::Header::new(::rlp::encode(&header).to_vec()),
hash: header.hash(),
};
let cache = Mutex::new(make_cache()); let cache = Mutex::new(make_cache());
let response = encoded::Body::new(body_stream.drain().to_vec()); let response = encoded::Body::new(body_stream.drain().to_vec());
@ -734,7 +939,7 @@ mod tests {
header.set_receipts_root(receipts_root); header.set_receipts_root(receipts_root);
let req = BlockReceipts(encoded::Header::new(::rlp::encode(&header).to_vec())); let req = BlockReceipts(encoded::Header::new(::rlp::encode(&header).to_vec()).into());
let cache = Mutex::new(make_cache()); let cache = Mutex::new(make_cache());
assert!(req.check_response(&cache, &receipts).is_ok()) assert!(req.check_response(&cache, &receipts).is_ok())
@ -782,7 +987,7 @@ mod tests {
header.set_state_root(root.clone()); header.set_state_root(root.clone());
let req = Account { let req = Account {
header: encoded::Header::new(::rlp::encode(&header).to_vec()), header: encoded::Header::new(::rlp::encode(&header).to_vec()).into(),
address: addr, address: addr,
}; };
@ -793,13 +998,15 @@ mod tests {
#[test] #[test]
fn check_code() { fn check_code() {
let code = vec![1u8; 256]; let code = vec![1u8; 256];
let code_hash = ::util::Hashable::sha3(&code);
let header = Header::new();
let req = Code { let req = Code {
block_id: (Default::default(), 2), header: encoded::Header::new(::rlp::encode(&header).to_vec()).into(),
code_hash: ::util::Hashable::sha3(&code), code_hash: code_hash.into(),
}; };
let cache = Mutex::new(make_cache()); let cache = Mutex::new(make_cache());
assert!(req.check_response(&cache, &code).is_ok()); assert!(req.check_response(&cache, &code_hash, &code).is_ok());
assert!(req.check_response(&cache, &[]).is_err()); assert!(req.check_response(&cache, &code_hash, &[]).is_err());
} }
} }

View File

@ -28,7 +28,7 @@ use ::request::{self as basic_request, Response};
use std::sync::Arc; use std::sync::Arc;
use super::{request, OnDemand, Peer}; use super::{request, OnDemand, Peer, HeaderRef};
// useful contexts to give the service. // useful contexts to give the service.
enum Context { enum Context {
@ -122,7 +122,10 @@ fn dummy_capabilities() -> Capabilities {
#[test] #[test]
fn detects_hangup() { fn detects_hangup() {
let on_demand = Harness::create().service; let on_demand = Harness::create().service;
let result = on_demand.header_by_hash(&Context::NoOp, request::HeaderByHash(H256::default())); let result = on_demand.request_raw(
&Context::NoOp,
vec![request::HeaderByHash(H256::default().into()).into()],
);
assert_eq!(on_demand.pending.read().len(), 1); assert_eq!(on_demand.pending.read().len(), 1);
drop(result); drop(result);
@ -148,7 +151,7 @@ fn single_request() {
let recv = harness.service.request_raw( let recv = harness.service.request_raw(
&Context::NoOp, &Context::NoOp,
vec![request::HeaderByHash(header.hash()).into()] vec![request::HeaderByHash(header.hash().into()).into()]
).unwrap(); ).unwrap();
assert_eq!(harness.service.pending.read().len(), 1); assert_eq!(harness.service.pending.read().len(), 1);
@ -182,7 +185,7 @@ fn no_capabilities() {
let _recv = harness.service.request_raw( let _recv = harness.service.request_raw(
&Context::NoOp, &Context::NoOp,
vec![request::HeaderByHash(Default::default()).into()] vec![request::HeaderByHash(H256::default().into()).into()]
).unwrap(); ).unwrap();
assert_eq!(harness.service.pending.read().len(), 1); assert_eq!(harness.service.pending.read().len(), 1);
@ -209,7 +212,7 @@ fn reassign() {
let recv = harness.service.request_raw( let recv = harness.service.request_raw(
&Context::NoOp, &Context::NoOp,
vec![request::HeaderByHash(header.hash()).into()] vec![request::HeaderByHash(header.hash().into()).into()]
).unwrap(); ).unwrap();
assert_eq!(harness.service.pending.read().len(), 1); assert_eq!(harness.service.pending.read().len(), 1);
@ -264,8 +267,8 @@ fn partial_response() {
let recv = harness.service.request_raw( let recv = harness.service.request_raw(
&Context::NoOp, &Context::NoOp,
vec![ vec![
request::HeaderByHash(header1.hash()).into(), request::HeaderByHash(header1.hash().into()).into(),
request::HeaderByHash(header2.hash()).into(), request::HeaderByHash(header2.hash().into()).into(),
], ],
).unwrap(); ).unwrap();
@ -323,8 +326,8 @@ fn part_bad_part_good() {
let recv = harness.service.request_raw( let recv = harness.service.request_raw(
&Context::NoOp, &Context::NoOp,
vec![ vec![
request::HeaderByHash(header1.hash()).into(), request::HeaderByHash(header1.hash().into()).into(),
request::HeaderByHash(header2.hash()).into(), request::HeaderByHash(header2.hash().into()).into(),
], ],
).unwrap(); ).unwrap();
@ -378,7 +381,7 @@ fn wrong_kind() {
let _recv = harness.service.request_raw( let _recv = harness.service.request_raw(
&Context::NoOp, &Context::NoOp,
vec![request::HeaderByHash(Default::default()).into()] vec![request::HeaderByHash(H256::default().into()).into()]
).unwrap(); ).unwrap();
assert_eq!(harness.service.pending.read().len(), 1); assert_eq!(harness.service.pending.read().len(), 1);
@ -395,3 +398,100 @@ fn wrong_kind() {
assert_eq!(harness.service.pending.read().len(), 1); assert_eq!(harness.service.pending.read().len(), 1);
} }
#[test]
fn back_references() {
let harness = Harness::create();
let peer_id = 10101;
let req_id = ReqId(14426);
harness.inject_peer(peer_id, Peer {
status: dummy_status(),
capabilities: dummy_capabilities(),
});
let header = Header::default();
let encoded = encoded::Header::new(header.rlp(Seal::With));
let recv = harness.service.request_raw(
&Context::NoOp,
vec![
request::HeaderByHash(header.hash().into()).into(),
request::BlockReceipts(HeaderRef::Unresolved(0, header.hash().into())).into(),
]
).unwrap();
assert_eq!(harness.service.pending.read().len(), 1);
harness.service.dispatch_pending(&Context::RequestFrom(peer_id, req_id));
assert_eq!(harness.service.pending.read().len(), 0);
harness.service.on_responses(
&Context::WithPeer(peer_id),
req_id,
&[
Response::Headers(basic_request::HeadersResponse { headers: vec![encoded] }),
Response::Receipts(basic_request::ReceiptsResponse { receipts: vec![] }),
]
);
assert!(recv.wait().is_ok());
}
#[test]
#[should_panic]
fn bad_back_reference() {
let harness = Harness::create();
let header = Header::default();
let _ = harness.service.request_raw(
&Context::NoOp,
vec![
request::HeaderByHash(header.hash().into()).into(),
request::BlockReceipts(HeaderRef::Unresolved(1, header.hash().into())).into(),
]
).unwrap();
}
#[test]
fn fill_from_cache() {
let harness = Harness::create();
let peer_id = 10101;
let req_id = ReqId(14426);
harness.inject_peer(peer_id, Peer {
status: dummy_status(),
capabilities: dummy_capabilities(),
});
let header = Header::default();
let encoded = encoded::Header::new(header.rlp(Seal::With));
let recv = harness.service.request_raw(
&Context::NoOp,
vec![
request::HeaderByHash(header.hash().into()).into(),
request::BlockReceipts(HeaderRef::Unresolved(0, header.hash().into())).into(),
]
).unwrap();
assert_eq!(harness.service.pending.read().len(), 1);
harness.service.dispatch_pending(&Context::RequestFrom(peer_id, req_id));
assert_eq!(harness.service.pending.read().len(), 0);
harness.service.on_responses(
&Context::WithPeer(peer_id),
req_id,
&[
Response::Headers(basic_request::HeadersResponse { headers: vec![encoded] }),
]
);
assert!(recv.wait().is_ok());
}

View File

@ -19,6 +19,7 @@
//! supplied as well. //! supplied as well.
use std::collections::HashMap; use std::collections::HashMap;
use std::ops::{Deref, DerefMut};
use request::{ use request::{
IncompleteRequest, OutputKind, Output, NoSuchOutput, ResponseError, ResponseLike, IncompleteRequest, OutputKind, Output, NoSuchOutput, ResponseError, ResponseLike,
}; };
@ -124,23 +125,14 @@ impl<T: IncompleteRequest + Clone> Requests<T> {
req.fill(|req_idx, out_idx| outputs.get(&(req_idx, out_idx)).cloned().ok_or(NoSuchOutput)) req.fill(|req_idx, out_idx| outputs.get(&(req_idx, out_idx)).cloned().ok_or(NoSuchOutput))
} }
} }
}
impl<T: super::CheckedRequest> Requests<T> { /// Supply a response, asserting its correctness.
/// Supply a response for the next request. /// Fill outputs based upon it.
/// Fails on: wrong request kind, all requests answered already. pub fn supply_response_unchecked<R: ResponseLike>(&mut self, response: &R) {
pub fn supply_response(&mut self, env: &T::Environment, response: &T::Response) if self.is_complete() { return }
-> Result<T::Extract, ResponseError<T::Error>>
{
let idx = self.answered;
// check validity.
if self.is_complete() { return Err(ResponseError::Unexpected) }
let extracted = self.requests[idx]
.check_response(env, response).map_err(ResponseError::Validity)?;
let outputs = &mut self.outputs; let outputs = &mut self.outputs;
let idx = self.answered;
response.fill_outputs(|out_idx, output| { response.fill_outputs(|out_idx, output| {
// we don't need to check output kinds here because all back-references // we don't need to check output kinds here because all back-references
// are validated in the builder. // are validated in the builder.
@ -154,7 +146,26 @@ impl<T: super::CheckedRequest> Requests<T> {
if let Some(ref mut req) = self.requests.get_mut(self.answered) { if let Some(ref mut req) = self.requests.get_mut(self.answered) {
req.fill(|req_idx, out_idx| outputs.get(&(req_idx, out_idx)).cloned().ok_or(NoSuchOutput)) req.fill(|req_idx, out_idx| outputs.get(&(req_idx, out_idx)).cloned().ok_or(NoSuchOutput))
} }
}
}
impl<T: super::CheckedRequest + Clone> Requests<T> {
/// Supply a response for the next request.
/// Fails on: wrong request kind, all requests answered already.
pub fn supply_response(&mut self, env: &T::Environment, response: &T::Response)
-> Result<T::Extract, ResponseError<T::Error>>
{
let idx = self.answered;
// check validity.
if idx == self.requests.len() { return Err(ResponseError::Unexpected) }
let completed = self.next_complete()
.expect("only fails when all requests have been answered; this just checked against; qed");
let extracted = self.requests[idx]
.check_response(&completed, env, response).map_err(ResponseError::Validity)?;
self.supply_response_unchecked(response);
Ok(extracted) Ok(extracted)
} }
} }
@ -182,6 +193,20 @@ impl Requests<super::Request> {
} }
} }
impl<T: IncompleteRequest> Deref for Requests<T> {
type Target = [T];
fn deref(&self) -> &[T] {
&self.requests[..]
}
}
impl<T: IncompleteRequest> DerefMut for Requests<T> {
fn deref_mut(&mut self) -> &mut [T] {
&mut self.requests[..]
}
}
#[cfg(test)] #[cfg(test)]
mod tests { mod tests {
use request::*; use request::*;

View File

@ -83,7 +83,7 @@ pub enum ResponseError<T> {
} }
/// An input to a request. /// An input to a request.
#[derive(Debug, Clone, PartialEq, Eq)] #[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum Field<T> { pub enum Field<T> {
/// A pre-specified input. /// A pre-specified input.
Scalar(T), Scalar(T),
@ -93,6 +93,29 @@ pub enum Field<T> {
} }
impl<T> Field<T> { impl<T> Field<T> {
/// Helper for creating a new back-reference field.
pub fn back_ref(idx: usize, req: usize) -> Self {
Field::BackReference(idx, req)
}
/// map a scalar into some other item.
pub fn map<F, U>(self, f: F) -> Field<U> where F: FnOnce(T) -> U {
match self {
Field::Scalar(x) => Field::Scalar(f(x)),
Field::BackReference(req, idx) => Field::BackReference(req, idx),
}
}
/// Attempt to get a reference to the inner scalar.
pub fn as_ref(&self) -> Option<&T> {
match *self {
Field::Scalar(ref x) => Some(x),
Field::BackReference(_, _) => None,
}
}
// attempt conversion into scalar value. // attempt conversion into scalar value.
fn into_scalar(self) -> Result<T, NoSuchOutput> { fn into_scalar(self) -> Result<T, NoSuchOutput> {
match self { match self {
@ -400,7 +423,7 @@ impl CheckedRequest for Request {
type Error = WrongKind; type Error = WrongKind;
type Environment = (); type Environment = ();
fn check_response(&self, _: &(), response: &Response) -> Result<(), WrongKind> { fn check_response(&self, _: &Self::Complete, _: &(), response: &Response) -> Result<(), WrongKind> {
if self.kind() == response.kind() { if self.kind() == response.kind() {
Ok(()) Ok(())
} else { } else {
@ -587,7 +610,7 @@ pub trait CheckedRequest: IncompleteRequest {
type Environment; type Environment;
/// Check whether the response matches (beyond the type). /// Check whether the response matches (beyond the type).
fn check_response(&self, &Self::Environment, &Self::Response) -> Result<Self::Extract, Self::Error>; fn check_response(&self, &Self::Complete, &Self::Environment, &Self::Response) -> Result<Self::Extract, Self::Error>;
} }
/// A response-like object. /// A response-like object.

View File

@ -27,7 +27,7 @@ use light::client::Client;
use light::on_demand::{request, OnDemand}; use light::on_demand::{request, OnDemand};
use light::TransactionQueue; use light::TransactionQueue;
use futures::{future, stream, Future, Stream}; use futures::{future, Future};
use parity_reactor::Remote; use parity_reactor::Remote;
@ -73,28 +73,32 @@ impl IoHandler<ClientIoMessage> for QueueCull {
self.remote.spawn_with_timeout(move || { self.remote.spawn_with_timeout(move || {
let maybe_fetching = sync.with_context(move |ctx| { let maybe_fetching = sync.with_context(move |ctx| {
// fetch the nonce of each sender in the queue. // fetch the nonce of each sender in the queue.
let nonce_futures = senders.iter() let nonce_reqs = senders.iter()
.map(|&address| request::Account { header: best_header.clone(), address: address }) .map(|&address| request::Account { header: best_header.clone().into(), address: address })
.map(move |request| { .collect::<Vec<_>>();
on_demand.account(ctx, request)
.map(move |maybe_acc| maybe_acc.map_or(start_nonce, |acc| acc.nonce))
})
.zip(senders.iter())
.map(|(fut, &addr)| fut.map(move |nonce| (addr, nonce)));
// as they come in, update each sender to the new nonce. // when they come in, update each sender to the new nonce.
stream::futures_unordered(nonce_futures) on_demand.request(ctx, nonce_reqs)
.fold(txq, |txq, (address, nonce)| { .expect("No back-references; therefore all back-references are valid; qed")
txq.write().cull(address, nonce); .map(move |accs| {
future::ok(txq) let txq = txq.write();
let _ = accs.into_iter()
.map(|maybe_acc| maybe_acc.map_or(start_nonce, |acc| acc.nonce))
.zip(senders)
.fold(txq, |mut txq, (nonce, addr)| {
txq.cull(addr, nonce);
txq
});
}) })
.map(|_| ()) // finally, discard the txq handle and log errors.
.map_err(|_| debug!(target: "cull", "OnDemand prematurely closed channel.")) .map_err(|_| debug!(target: "cull", "OnDemand prematurely closed channel."))
}); });
match maybe_fetching { match maybe_fetching {
Some(fut) => fut.boxed(), Some(fut) => fut.boxed(),
None => future::ok(()).boxed(), None => {
debug!(target: "cull", "Unable to acquire network context; qed");
future::ok(()).boxed()
}
} }
}, Duration::from_millis(PURGE_TIMEOUT_MS), || {}) }, Duration::from_millis(PURGE_TIMEOUT_MS), || {})
} }

View File

@ -20,7 +20,7 @@ use std::fmt::Debug;
use std::ops::Deref; use std::ops::Deref;
use std::sync::{Arc, Weak}; use std::sync::{Arc, Weak};
use futures::{future, stream, Future, Stream, BoxFuture}; use futures::{future, Future, BoxFuture};
use light::cache::Cache as LightDataCache; use light::cache::Cache as LightDataCache;
use light::client::LightChainClient; use light::client::LightChainClient;
use light::on_demand::{request, OnDemand}; use light::on_demand::{request, OnDemand};
@ -185,25 +185,28 @@ pub fn fetch_gas_price_corpus(
let eventual_corpus = sync.with_context(|ctx| { let eventual_corpus = sync.with_context(|ctx| {
// get some recent headers with gas used, // get some recent headers with gas used,
// and request each of the blocks from the network. // and request each of the blocks from the network.
let block_futures = client.ancestry_iter(BlockId::Latest) let block_requests = client.ancestry_iter(BlockId::Latest)
.filter(|hdr| hdr.gas_used() != U256::default()) .filter(|hdr| hdr.gas_used() != U256::default())
.take(GAS_PRICE_SAMPLE_SIZE) .take(GAS_PRICE_SAMPLE_SIZE)
.map(request::Body::new) .map(|hdr| request::Body(hdr.into()))
.map(|req| on_demand.block(ctx, req)); .collect::<Vec<_>>();
// as the blocks come in, collect gas prices into a vector // when the blocks come in, collect gas prices into a vector
stream::futures_unordered(block_futures) on_demand.request(ctx, block_requests)
.fold(Vec::new(), |mut v, block| { .expect("no back-references; therefore all back-references are valid; qed")
.map(|bodies| {
bodies.into_iter().fold(Vec::new(), |mut v, block| {
for t in block.transaction_views().iter() { for t in block.transaction_views().iter() {
v.push(t.gas_price()) v.push(t.gas_price())
} }
future::ok(v) v
}) })
.map(move |v| { })
.map(move |prices| {
// produce a corpus from the vector, cache it, and return // produce a corpus from the vector, cache it, and return
// the median as the intended gas price. // the median as the intended gas price.
let corpus: ::stats::Corpus<_> = v.into(); let corpus: ::stats::Corpus<_> = prices.into();
cache.lock().set_gas_price_corpus(corpus.clone()); cache.lock().set_gas_price_corpus(corpus.clone());
corpus corpus
}) })
@ -282,10 +285,10 @@ impl LightDispatcher {
let best_header = self.client.best_block_header(); let best_header = self.client.best_block_header();
let account_start_nonce = self.client.engine().account_start_nonce(); let account_start_nonce = self.client.engine().account_start_nonce();
let nonce_future = self.sync.with_context(|ctx| self.on_demand.account(ctx, request::Account { let nonce_future = self.sync.with_context(|ctx| self.on_demand.request(ctx, request::Account {
header: best_header, header: best_header.into(),
address: addr, address: addr,
})); }).expect("no back-references; therefore all back-references valid; qed"));
match nonce_future { match nonce_future {
Some(x) => Some(x) =>

View File

@ -31,7 +31,8 @@ use jsonrpc_macros::Trailing;
use light::cache::Cache; use light::cache::Cache;
use light::client::LightChainClient; use light::client::LightChainClient;
use light::cht; use light::cht;
use light::on_demand::{OnDemand, request}; use light::on_demand::{request, OnDemand, HeaderRef, Request as OnDemandRequest, Response as OnDemandResponse};
use light::request::Field;
use ethsync::LightSync; use ethsync::LightSync;
use util::{Address, Mutex, Uint, U256}; use util::{Address, Mutex, Uint, U256};
@ -55,51 +56,72 @@ pub struct LightFetch {
/// Type alias for convenience. /// Type alias for convenience.
pub type ExecutionResult = Result<Executed, ExecutionError>; pub type ExecutionResult = Result<Executed, ExecutionError>;
impl LightFetch { // extract the header indicated by the given `HeaderRef` from the given responses.
/// Get a block header from the on demand service or client, or error. // fails only if they do not correspond.
pub fn header(&self, id: BlockId) -> BoxFuture<encoded::Header, Error> { fn extract_header(res: &[OnDemandResponse], header: HeaderRef) -> Option<encoded::Header> {
if let Some(h) = self.client.block_header(id) { match header {
return future::ok(h).boxed() HeaderRef::Stored(hdr) => Some(hdr),
HeaderRef::Unresolved(idx, _) => match res.get(idx) {
Some(&OnDemandResponse::HeaderByHash(ref hdr)) => Some(hdr.clone()),
_ => None,
},
}
} }
let maybe_future = match id { impl LightFetch {
// push the necessary requests onto the request chain to get the header by the given ID.
// yield a header reference which other requests can use.
fn make_header_requests(&self, id: BlockId, reqs: &mut Vec<OnDemandRequest>) -> Result<HeaderRef, Error> {
if let Some(h) = self.client.block_header(id) {
return Ok(h.into());
}
match id {
BlockId::Number(n) => { BlockId::Number(n) => {
let cht_root = cht::block_to_cht_number(n).and_then(|cn| self.client.cht_root(cn as usize)); let cht_root = cht::block_to_cht_number(n).and_then(|cn| self.client.cht_root(cn as usize));
match cht_root { match cht_root {
None => return future::err(errors::unknown_block()).boxed(), None => Err(errors::unknown_block()),
Some(root) => { Some(root) => {
let req = request::HeaderProof::new(n, root) let req = request::HeaderProof::new(n, root)
.expect("only fails for 0; client always stores genesis; client already queried; qed"); .expect("only fails for 0; client always stores genesis; client already queried; qed");
let (sync, on_demand) = (self.sync.clone(), self.on_demand.clone()); let idx = reqs.len();
self.sync.with_context(|ctx| { let hash_ref = Field::back_ref(idx, 0);
let fut = self.on_demand.hash_by_number(ctx, req) reqs.push(req.into());
.map(request::HeaderByHash) reqs.push(request::HeaderByHash(hash_ref.clone()).into());
.map_err(errors::on_demand_cancel);
fut.and_then(move |req| { Ok(HeaderRef::Unresolved(idx + 1, hash_ref))
match sync.with_context(|ctx| on_demand.header_by_hash(ctx, req)) {
Some(fut) => fut.map_err(errors::on_demand_cancel).boxed(),
None => future::err(errors::network_disabled()).boxed(),
}
}).boxed()
})
} }
} }
} }
BlockId::Hash(h) => { BlockId::Hash(h) => {
self.sync.with_context(|ctx| reqs.push(request::HeaderByHash(h.into()).into());
self.on_demand.header_by_hash(ctx, request::HeaderByHash(h))
.then(|res| future::done(match res { let idx = reqs.len();
Ok(h) => Ok(h), Ok(HeaderRef::Unresolved(idx, h.into()))
Err(e) => Err(errors::on_demand_cancel(e)),
}))
.boxed()
)
} }
_ => None, // latest, earliest, and pending will have all already returned. _ => Err(errors::unknown_block()) // latest, earliest, and pending will have all already returned.
}
}
/// Get a block header from the on demand service or client, or error.
pub fn header(&self, id: BlockId) -> BoxFuture<encoded::Header, Error> {
let mut reqs = Vec::new();
let header_ref = match self.make_header_requests(id, &mut reqs) {
Ok(r) => r,
Err(e) => return future::err(e).boxed(),
}; };
let maybe_future = self.sync.with_context(move |ctx| {
self.on_demand.request_raw(ctx, reqs)
.expect("all back-references known to be valid; qed")
.map(|res| extract_header(&res, header_ref)
.expect("these responses correspond to requests that header_ref belongs to. \
therefore it will not fail; qed"))
.map_err(errors::on_demand_cancel)
.boxed()
});
match maybe_future { match maybe_future {
Some(recv) => recv, Some(recv) => recv,
None => future::err(errors::network_disabled()).boxed() None => future::err(errors::network_disabled()).boxed()
@ -109,19 +131,29 @@ impl LightFetch {
/// helper for getting account info at a given block. /// helper for getting account info at a given block.
/// `None` indicates the account doesn't exist at the given block. /// `None` indicates the account doesn't exist at the given block.
pub fn account(&self, address: Address, id: BlockId) -> BoxFuture<Option<BasicAccount>, Error> { pub fn account(&self, address: Address, id: BlockId) -> BoxFuture<Option<BasicAccount>, Error> {
let (sync, on_demand) = (self.sync.clone(), self.on_demand.clone()); let mut reqs = Vec::new();
let header_ref = match self.make_header_requests(id, &mut reqs) {
Ok(r) => r,
Err(e) => return future::err(e).boxed(),
};
self.header(id).and_then(move |header| { reqs.push(request::Account { header: header_ref, address: address }.into());
let maybe_fut = sync.with_context(|ctx| on_demand.account(ctx, request::Account {
header: header,
address: address,
}));
match maybe_fut { let maybe_future = self.sync.with_context(move |ctx| {
Some(fut) => fut.map_err(errors::on_demand_cancel).boxed(), self.on_demand.request_raw(ctx, reqs)
None => future::err(errors::network_disabled()).boxed(), .expect("all back-references known to be valid; qed")
.map(|mut res| match res.pop() {
Some(OnDemandResponse::Account(acc)) => acc,
_ => panic!("responses correspond directly with requests in amount and type; qed"),
})
.map_err(errors::on_demand_cancel)
.boxed()
});
match maybe_future {
Some(recv) => recv,
None => future::err(errors::network_disabled()).boxed()
} }
}).boxed()
} }
/// helper for getting proved execution. /// helper for getting proved execution.
@ -182,13 +214,16 @@ impl LightFetch {
let request = request::TransactionProof { let request = request::TransactionProof {
tx: tx, tx: tx,
header: hdr, header: hdr.into(),
env_info: env_info, env_info: env_info,
engine: client.engine().clone(), engine: client.engine().clone(),
}; };
let proved_future = sync.with_context(move |ctx| { let proved_future = sync.with_context(move |ctx| {
on_demand.transaction_proof(ctx, request).map_err(errors::on_demand_cancel).boxed() on_demand
.request(ctx, request)
.expect("no back-references; therefore all back-refs valid; qed")
.map_err(errors::on_demand_cancel).boxed()
}); });
match proved_future { match proved_future {
@ -200,13 +235,28 @@ impl LightFetch {
/// get a block itself. fails on unknown block ID. /// get a block itself. fails on unknown block ID.
pub fn block(&self, id: BlockId) -> BoxFuture<encoded::Block, Error> { pub fn block(&self, id: BlockId) -> BoxFuture<encoded::Block, Error> {
let (on_demand, sync) = (self.on_demand.clone(), self.sync.clone()); let mut reqs = Vec::new();
let header_ref = match self.make_header_requests(id, &mut reqs) {
Ok(r) => r,
Err(e) => return future::err(e).boxed(),
};
self.header(id).map(request::Body::new).and_then(move |req| { reqs.push(request::Body(header_ref).into());
match sync.with_context(move |ctx| on_demand.block(ctx, req)) {
Some(fut) => fut.map_err(errors::on_demand_cancel).boxed(), let maybe_future = self.sync.with_context(move |ctx| {
None => future::err(errors::network_disabled()).boxed(), self.on_demand.request_raw(ctx, reqs)
} .expect("all back-references known to be valid; qed")
}).boxed() .map(|mut res| match res.pop() {
Some(OnDemandResponse::Body(b)) => b,
_ => panic!("responses correspond directly with requests in amount and type; qed"),
})
.map_err(errors::on_demand_cancel)
.boxed()
});
match maybe_future {
Some(recv) => recv,
None => future::err(errors::network_disabled()).boxed()
}
} }
} }

View File

@ -59,6 +59,8 @@ use v1::metadata::Metadata;
use util::Address; use util::Address;
const NO_INVALID_BACK_REFS: &'static str = "Fails only on invalid back-references; back-references here known to be valid; qed";
/// Light client `ETH` (and filter) RPC. /// Light client `ETH` (and filter) RPC.
pub struct EthClient { pub struct EthClient {
sync: Arc<LightSync>, sync: Arc<LightSync>,
@ -186,9 +188,10 @@ impl EthClient {
// - network is down. // - network is down.
// - we get a score, but our hash is non-canonical. // - we get a score, but our hash is non-canonical.
// - we get a score, and our hash is canonical. // - we get a score, and our hash is canonical.
let maybe_fut = sync.with_context(move |ctx| on_demand.hash_and_score_by_number(ctx, req)); let maybe_fut = sync.with_context(move |ctx| on_demand.request(ctx, req).expect(NO_INVALID_BACK_REFS));
match maybe_fut { match maybe_fut {
Some(fut) => fut.map(move |(hash, score)| { Some(fut) => fut
.map(move |(hash, score)| {
let score = if hash == block.hash() { let score = if hash == block.hash() {
Some(score) Some(score)
} else { } else {
@ -295,7 +298,8 @@ impl Eth for EthClient {
if hdr.transactions_root() == SHA3_NULL_RLP { if hdr.transactions_root() == SHA3_NULL_RLP {
future::ok(Some(U256::from(0).into())).boxed() future::ok(Some(U256::from(0).into())).boxed()
} else { } else {
sync.with_context(|ctx| on_demand.block(ctx, request::Body::new(hdr))) sync.with_context(|ctx| on_demand.request(ctx, request::Body(hdr.into())))
.map(|x| x.expect(NO_INVALID_BACK_REFS))
.map(|x| x.map(|b| Some(U256::from(b.transactions_count()).into()))) .map(|x| x.map(|b| Some(U256::from(b.transactions_count()).into())))
.map(|x| x.map_err(errors::on_demand_cancel).boxed()) .map(|x| x.map_err(errors::on_demand_cancel).boxed())
.unwrap_or_else(|| future::err(errors::network_disabled()).boxed()) .unwrap_or_else(|| future::err(errors::network_disabled()).boxed())
@ -310,7 +314,8 @@ impl Eth for EthClient {
if hdr.transactions_root() == SHA3_NULL_RLP { if hdr.transactions_root() == SHA3_NULL_RLP {
future::ok(Some(U256::from(0).into())).boxed() future::ok(Some(U256::from(0).into())).boxed()
} else { } else {
sync.with_context(|ctx| on_demand.block(ctx, request::Body::new(hdr))) sync.with_context(|ctx| on_demand.request(ctx, request::Body(hdr.into())))
.map(|x| x.expect(NO_INVALID_BACK_REFS))
.map(|x| x.map(|b| Some(U256::from(b.transactions_count()).into()))) .map(|x| x.map(|b| Some(U256::from(b.transactions_count()).into())))
.map(|x| x.map_err(errors::on_demand_cancel).boxed()) .map(|x| x.map_err(errors::on_demand_cancel).boxed())
.unwrap_or_else(|| future::err(errors::network_disabled()).boxed()) .unwrap_or_else(|| future::err(errors::network_disabled()).boxed())
@ -325,7 +330,8 @@ impl Eth for EthClient {
if hdr.uncles_hash() == SHA3_EMPTY_LIST_RLP { if hdr.uncles_hash() == SHA3_EMPTY_LIST_RLP {
future::ok(Some(U256::from(0).into())).boxed() future::ok(Some(U256::from(0).into())).boxed()
} else { } else {
sync.with_context(|ctx| on_demand.block(ctx, request::Body::new(hdr))) sync.with_context(|ctx| on_demand.request(ctx, request::Body(hdr.into())))
.map(|x| x.expect(NO_INVALID_BACK_REFS))
.map(|x| x.map(|b| Some(U256::from(b.uncles_count()).into()))) .map(|x| x.map(|b| Some(U256::from(b.uncles_count()).into())))
.map(|x| x.map_err(errors::on_demand_cancel).boxed()) .map(|x| x.map_err(errors::on_demand_cancel).boxed())
.unwrap_or_else(|| future::err(errors::network_disabled()).boxed()) .unwrap_or_else(|| future::err(errors::network_disabled()).boxed())
@ -340,7 +346,8 @@ impl Eth for EthClient {
if hdr.uncles_hash() == SHA3_EMPTY_LIST_RLP { if hdr.uncles_hash() == SHA3_EMPTY_LIST_RLP {
future::ok(Some(U256::from(0).into())).boxed() future::ok(Some(U256::from(0).into())).boxed()
} else { } else {
sync.with_context(|ctx| on_demand.block(ctx, request::Body::new(hdr))) sync.with_context(|ctx| on_demand.request(ctx, request::Body(hdr.into())))
.map(|x| x.expect(NO_INVALID_BACK_REFS))
.map(|x| x.map(|b| Some(U256::from(b.uncles_count()).into()))) .map(|x| x.map(|b| Some(U256::from(b.uncles_count()).into())))
.map(|x| x.map_err(errors::on_demand_cancel).boxed()) .map(|x| x.map_err(errors::on_demand_cancel).boxed())
.unwrap_or_else(|| future::err(errors::network_disabled()).boxed()) .unwrap_or_else(|| future::err(errors::network_disabled()).boxed())
@ -501,8 +508,8 @@ impl Filterable for EthClient {
let hdr_bloom = hdr.log_bloom(); let hdr_bloom = hdr.log_bloom();
bit_combos.iter().find(|&bloom| hdr_bloom & *bloom == *bloom).is_some() bit_combos.iter().find(|&bloom| hdr_bloom & *bloom == *bloom).is_some()
}) })
.map(|hdr| (hdr.number(), request::BlockReceipts(hdr))) .map(|hdr| (hdr.number(), request::BlockReceipts(hdr.into())))
.map(|(num, req)| self.on_demand.block_receipts(ctx, req).map(move |x| (num, x))) .map(|(num, req)| self.on_demand.request(ctx, req).expect(NO_INVALID_BACK_REFS).map(move |x| (num, x)))
.collect(); .collect();
// as the receipts come in, find logs within them which match the filter. // as the receipts come in, find logs within them which match the filter.