// 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 . //! Request credit management. //! //! Every request in the light protocol leads to a reduction //! of the requester's amount of credits as a rate-limiting mechanism. //! The amount of credits will recharge at a set rate. //! //! This module provides an interface for configuration of //! costs and recharge rates of request credits. //! //! Current default costs are picked completely arbitrarily, not based //! on any empirical timings or mathematical models. use request::{self, Request}; use super::error::Error; use rlp::*; use util::U256; use time::{Duration, SteadyTime}; /// Credits value. /// /// Produced and recharged using `FlowParams`. /// Definitive updates can be made as well -- these will reset the recharge /// point to the time of the update. #[derive(Debug, Clone, PartialEq, Eq)] pub struct Credits { estimate: U256, recharge_point: SteadyTime, } impl Credits { /// Get the current amount of credits.. pub fn current(&self) -> U256 { self.estimate.clone() } /// Make a definitive update. /// This will be the value obtained after receiving /// a response to a request. pub fn update_to(&mut self, value: U256) { self.estimate = value; self.recharge_point = SteadyTime::now(); } /// Attempt to apply the given cost to the amount of credits. /// /// If successful, the cost will be deducted successfully. /// /// If unsuccessful, the structure will be unaltered an an /// error will be produced. pub fn deduct_cost(&mut self, cost: U256) -> Result<(), Error> { match cost > self.estimate { true => Err(Error::NoCredits), false => { self.estimate = self.estimate - cost; Ok(()) } } } } /// A cost table, mapping requests to base and per-request costs. #[derive(Debug, Clone, PartialEq, Eq)] pub struct CostTable { base: U256, // cost per packet. headers: U256, // cost per header body: U256, receipts: U256, account: U256, storage: U256, code: U256, header_proof: U256, transaction_proof: U256, // cost per gas. } impl Default for CostTable { fn default() -> Self { // arbitrarily chosen constants. CostTable { base: 100000.into(), headers: 10000.into(), body: 15000.into(), receipts: 5000.into(), account: 25000.into(), storage: 25000.into(), code: 20000.into(), header_proof: 15000.into(), transaction_proof: 2.into(), } } } impl Encodable for CostTable { fn rlp_append(&self, s: &mut RlpStream) { fn append_cost(s: &mut RlpStream, cost: &U256, kind: request::Kind) { s.begin_list(2); // hack around https://github.com/paritytech/parity/issues/4356 Encodable::rlp_append(&kind, s); s.append(cost); } s.begin_list(9).append(&self.base); append_cost(s, &self.headers, request::Kind::Headers); append_cost(s, &self.body, request::Kind::Body); append_cost(s, &self.receipts, request::Kind::Receipts); append_cost(s, &self.account, request::Kind::Account); append_cost(s, &self.storage, request::Kind::Storage); append_cost(s, &self.code, request::Kind::Code); append_cost(s, &self.header_proof, request::Kind::HeaderProof); append_cost(s, &self.transaction_proof, request::Kind::Execution); } } impl Decodable for CostTable { fn decode(rlp: &UntrustedRlp) -> Result { let base = rlp.val_at(0)?; let mut headers = None; let mut body = None; let mut receipts = None; let mut account = None; let mut storage = None; let mut code = None; let mut header_proof = None; let mut transaction_proof = None; for cost_list in rlp.iter().skip(1) { let cost = cost_list.val_at(1)?; match cost_list.val_at(0)? { request::Kind::Headers => headers = Some(cost), request::Kind::Body => body = Some(cost), request::Kind::Receipts => receipts = Some(cost), request::Kind::Account => account = Some(cost), request::Kind::Storage => storage = Some(cost), request::Kind::Code => code = Some(cost), request::Kind::HeaderProof => header_proof = Some(cost), request::Kind::Execution => transaction_proof = Some(cost), } } let unwrap_cost = |cost: Option| cost.ok_or(DecoderError::Custom("Not all costs specified in cost table.")); Ok(CostTable { base: base, headers: unwrap_cost(headers)?, body: unwrap_cost(body)?, receipts: unwrap_cost(receipts)?, account: unwrap_cost(account)?, storage: unwrap_cost(storage)?, code: unwrap_cost(code)?, header_proof: unwrap_cost(header_proof)?, transaction_proof: unwrap_cost(transaction_proof)?, }) } } /// Handles costs, recharge, limits of request credits. #[derive(Debug, Clone, PartialEq)] pub struct FlowParams { costs: CostTable, limit: U256, recharge: U256, } impl FlowParams { /// Create new flow parameters from a request cost table, /// credit limit, and (minimum) rate of recharge. pub fn new(limit: U256, costs: CostTable, recharge: U256) -> Self { FlowParams { costs: costs, limit: limit, recharge: recharge, } } /// Create effectively infinite flow params. pub fn free() -> Self { let free_cost: U256 = 0.into(); FlowParams { limit: (!0u64).into(), recharge: 1.into(), costs: CostTable { base: free_cost.clone(), headers: free_cost.clone(), body: free_cost.clone(), receipts: free_cost.clone(), account: free_cost.clone(), storage: free_cost.clone(), code: free_cost.clone(), header_proof: free_cost.clone(), transaction_proof: free_cost, } } } /// Get a reference to the credit limit. pub fn limit(&self) -> &U256 { &self.limit } /// Get a reference to the cost table. pub fn cost_table(&self) -> &CostTable { &self.costs } /// Get the base cost of a request. pub fn base_cost(&self) -> U256 { self.costs.base } /// Get a reference to the recharge rate. pub fn recharge_rate(&self) -> &U256 { &self.recharge } /// Compute the actual cost of a request, given the kind of request /// and number of requests made. pub fn compute_cost(&self, request: &Request) -> U256 { match *request { Request::Headers(ref req) => self.costs.headers * req.max.into(), Request::HeaderProof(_) => self.costs.header_proof, Request::Body(_) => self.costs.body, Request::Receipts(_) => self.costs.receipts, Request::Account(_) => self.costs.account, Request::Storage(_) => self.costs.storage, Request::Code(_) => self.costs.code, Request::Execution(ref req) => self.costs.transaction_proof * req.gas, } } /// Compute the cost of a set of requests. /// This is the base cost plus the cost of each individual request. pub fn compute_cost_multi(&self, requests: &[Request]) -> U256 { requests.iter().fold(self.costs.base, |cost, req| cost + self.compute_cost(req)) } /// Create initial credits. pub fn create_credits(&self) -> Credits { Credits { estimate: self.limit, recharge_point: SteadyTime::now(), } } /// Recharge the given credits based on time passed since last /// update. pub fn recharge(&self, credits: &mut Credits) { let now = SteadyTime::now(); // recompute and update only in terms of full seconds elapsed // in order to keep the estimate as an underestimate. let elapsed = (now - credits.recharge_point).num_seconds(); credits.recharge_point = credits.recharge_point + Duration::seconds(elapsed); let elapsed: U256 = elapsed.into(); credits.estimate = ::std::cmp::min(self.limit, credits.estimate + (elapsed * self.recharge)); } /// Refund some credits which were previously deducted. /// Does not update the recharge timestamp. pub fn refund(&self, credits: &mut Credits, refund_amount: U256) { credits.estimate = credits.estimate + refund_amount; if credits.estimate > self.limit { credits.estimate = self.limit } } } impl Default for FlowParams { fn default() -> Self { FlowParams { limit: 50_000_000.into(), costs: CostTable::default(), recharge: 100_000.into(), } } } #[cfg(test)] mod tests { use super::*; #[test] fn should_serialize_cost_table() { let costs = CostTable::default(); let serialized = ::rlp::encode(&costs); let new_costs: CostTable = ::rlp::decode(&*serialized); assert_eq!(costs, new_costs); } #[test] fn credits_mechanism() { use std::thread; use std::time::Duration; let flow_params = FlowParams::new(100.into(), Default::default(), 20.into()); let mut credits = flow_params.create_credits(); assert!(credits.deduct_cost(101.into()).is_err()); assert!(credits.deduct_cost(10.into()).is_ok()); thread::sleep(Duration::from_secs(1)); flow_params.recharge(&mut credits); assert_eq!(credits.estimate, 100.into()); } }