Merge pull request #106 from garious/parallelize-accountant

Parallelize accountant

src/accountant.rs

@@ -10,8 +10,9 @@ use mint::Mint;
 use plan::{Payment, Plan, Witness};
 use signature::{KeyPair, PublicKey, Signature};
 use std::collections::hash_map::Entry::Occupied;
-use std::collections::{HashMap, HashSet};
+use std::collections::{HashMap, HashSet, VecDeque};
 use std::result;
+use std::sync::RwLock;
 use transaction::Transaction;
 
 #[derive(Debug, PartialEq, Eq)]
@@ -23,29 +24,35 @@ pub enum AccountingError {
 pub type Result<T> = result::Result<T, AccountingError>;
 
 /// Commit funds to the 'to' party.
-fn apply_payment(balances: &mut HashMap<PublicKey, i64>, payment: &Payment) {
-    *balances.entry(payment.to).or_insert(0) += payment.tokens;
+fn apply_payment(balances: &RwLock<HashMap<PublicKey, RwLock<i64>>>, payment: &Payment) {
+    if balances.read().unwrap().contains_key(&payment.to) {
+        let bals = balances.read().unwrap();
+        *bals[&payment.to].write().unwrap() += payment.tokens;
+    } else {
+        let mut bals = balances.write().unwrap();
+        bals.insert(payment.to, RwLock::new(payment.tokens));
+    }
 }
 
 pub struct Accountant {
-    balances: HashMap<PublicKey, i64>,
-    pending: HashMap<Signature, Plan>,
-    signatures: HashSet<Signature>,
-    time_sources: HashSet<PublicKey>,
-    last_time: DateTime<Utc>,
+    balances: RwLock<HashMap<PublicKey, RwLock<i64>>>,
+    pending: RwLock<HashMap<Signature, Plan>>,
+    last_ids: RwLock<VecDeque<(Hash, RwLock<HashSet<Signature>>)>>,
+    time_sources: RwLock<HashSet<PublicKey>>,
+    last_time: RwLock<DateTime<Utc>>,
 }
 
 impl Accountant {
     /// Create an Accountant using a deposit.
     pub fn new_from_deposit(deposit: &Payment) -> Self {
-        let mut balances = HashMap::new();
-        apply_payment(&mut balances, deposit);
+        let balances = RwLock::new(HashMap::new());
+        apply_payment(&balances, deposit);
         Accountant {
             balances,
-            pending: HashMap::new(),
-            signatures: HashSet::new(),
-            time_sources: HashSet::new(),
-            last_time: Utc.timestamp(0, 0),
+            pending: RwLock::new(HashMap::new()),
+            last_ids: RwLock::new(VecDeque::new()),
+            time_sources: RwLock::new(HashSet::new()),
+            last_time: RwLock::new(Utc.timestamp(0, 0)),
         }
     }
 
@@ -58,46 +65,62 @@ impl Accountant {
         Self::new_from_deposit(&deposit)
     }
 
-    fn reserve_signature(&mut self, sig: &Signature) -> bool {
-        if self.signatures.contains(sig) {
+    fn reserve_signature(signatures: &RwLock<HashSet<Signature>>, sig: &Signature) -> bool {
+        if signatures.read().unwrap().contains(sig) {
             return false;
         }
-        self.signatures.insert(*sig);
+        signatures.write().unwrap().insert(*sig);
+        true
+    }
+
+    fn reserve_signature_with_last_id(&self, sig: &Signature, last_id: &Hash) -> bool {
+        if let Some(entry) = self.last_ids
+            .read()
+            .unwrap()
+            .iter()
+            .rev()
+            .find(|x| x.0 == *last_id)
+        {
+            return Self::reserve_signature(&entry.1, sig);
+        }
+        let sigs = RwLock::new(HashSet::new());
+        Self::reserve_signature(&sigs, sig);
+        self.last_ids.write().unwrap().push_back((*last_id, sigs));
         true
     }
 
     /// Process a Transaction that has already been verified.
-    pub fn process_verified_transaction(&mut self, tr: &Transaction) -> Result<()> {
+    pub fn process_verified_transaction(&self, tr: &Transaction) -> Result<()> {
         if self.get_balance(&tr.from).unwrap_or(0) < tr.tokens {
             return Err(AccountingError::InsufficientFunds);
         }
 
-        if !self.reserve_signature(&tr.sig) {
+        if !self.reserve_signature_with_last_id(&tr.sig, &tr.last_id) {
             return Err(AccountingError::InvalidTransferSignature);
         }
 
-        if let Some(x) = self.balances.get_mut(&tr.from) {
-            *x -= tr.tokens;
+        if let Some(x) = self.balances.read().unwrap().get(&tr.from) {
+            *x.write().unwrap() -= tr.tokens;
         }
 
         let mut plan = tr.plan.clone();
-        plan.apply_witness(&Witness::Timestamp(self.last_time));
+        plan.apply_witness(&Witness::Timestamp(*self.last_time.read().unwrap()));
 
         if let Some(ref payment) = plan.final_payment() {
-            apply_payment(&mut self.balances, payment);
+            apply_payment(&self.balances, payment);
         } else {
-            self.pending.insert(tr.sig, plan);
+            self.pending.write().unwrap().insert(tr.sig, plan);
         }
 
         Ok(())
     }
 
     /// Process a Witness Signature that has already been verified.
-    fn process_verified_sig(&mut self, from: PublicKey, tx_sig: Signature) -> Result<()> {
-        if let Occupied(mut e) = self.pending.entry(tx_sig) {
+    fn process_verified_sig(&self, from: PublicKey, tx_sig: Signature) -> Result<()> {
+        if let Occupied(mut e) = self.pending.write().unwrap().entry(tx_sig) {
             e.get_mut().apply_witness(&Witness::Signature(from));
             if let Some(ref payment) = e.get().final_payment() {
-                apply_payment(&mut self.balances, payment);
+                apply_payment(&self.balances, payment);
                 e.remove_entry();
             }
         };
@@ -106,16 +129,16 @@ impl Accountant {
     }
 
     /// Process a Witness Timestamp that has already been verified.
-    fn process_verified_timestamp(&mut self, from: PublicKey, dt: DateTime<Utc>) -> Result<()> {
+    fn process_verified_timestamp(&self, from: PublicKey, dt: DateTime<Utc>) -> Result<()> {
         // If this is the first timestamp we've seen, it probably came from the genesis block,
         // so we'll trust it.
-        if self.last_time == Utc.timestamp(0, 0) {
-            self.time_sources.insert(from);
+        if *self.last_time.read().unwrap() == Utc.timestamp(0, 0) {
+            self.time_sources.write().unwrap().insert(from);
         }
 
-        if self.time_sources.contains(&from) {
-            if dt > self.last_time {
-                self.last_time = dt;
+        if self.time_sources.read().unwrap().contains(&from) {
+            if dt > *self.last_time.read().unwrap() {
+                *self.last_time.write().unwrap() = dt;
             }
         } else {
             return Ok(());
@@ -123,23 +146,27 @@ impl Accountant {
 
         // Check to see if any timelocked transactions can be completed.
         let mut completed = vec![];
-        for (key, plan) in &mut self.pending {
-            plan.apply_witness(&Witness::Timestamp(self.last_time));
+
+        // Hold 'pending' write lock until the end of this function. Otherwise another thread can
+        // double-spend if it enters before the modified plan is removed from 'pending'.
+        let mut pending = self.pending.write().unwrap();
+        for (key, plan) in pending.iter_mut() {
+            plan.apply_witness(&Witness::Timestamp(*self.last_time.read().unwrap()));
             if let Some(ref payment) = plan.final_payment() {
-                apply_payment(&mut self.balances, payment);
+                apply_payment(&self.balances, payment);
                 completed.push(key.clone());
             }
         }
 
         for key in completed {
-            self.pending.remove(&key);
+            pending.remove(&key);
         }
 
         Ok(())
     }
 
     /// Process an Transaction or Witness that has already been verified.
-    pub fn process_verified_event(&mut self, event: &Event) -> Result<()> {
+    pub fn process_verified_event(&self, event: &Event) -> Result<()> {
         match *event {
             Event::Transaction(ref tr) => self.process_verified_transaction(tr),
             Event::Signature { from, tx_sig, .. } => self.process_verified_sig(from, tx_sig),
@@ -150,7 +177,7 @@ impl Accountant {
     /// Create, sign, and process a Transaction from `keypair` to `to` of
     /// `n` tokens where `last_id` is the last Entry ID observed by the client.
     pub fn transfer(
-        &mut self,
+        &self,
         n: i64,
         keypair: &KeyPair,
         to: PublicKey,
@@ -165,7 +192,7 @@ impl Accountant {
     /// to `to` of `n` tokens on `dt` where `last_id` is the last Entry ID
     /// observed by the client.
     pub fn transfer_on_date(
-        &mut self,
+        &self,
         n: i64,
         keypair: &KeyPair,
         to: PublicKey,
@@ -178,7 +205,8 @@ impl Accountant {
     }
 
     pub fn get_balance(&self, pubkey: &PublicKey) -> Option<i64> {
-        self.balances.get(pubkey).cloned()
+        let bals = self.balances.read().unwrap();
+        bals.get(pubkey).map(|x| *x.read().unwrap())
     }
 }
 
@@ -191,7 +219,7 @@ mod tests {
     fn test_accountant() {
         let alice = Mint::new(10_000);
         let bob_pubkey = KeyPair::new().pubkey();
-        let mut acc = Accountant::new(&alice);
+        let acc = Accountant::new(&alice);
         acc.transfer(1_000, &alice.keypair(), bob_pubkey, alice.last_id())
             .unwrap();
         assert_eq!(acc.get_balance(&bob_pubkey).unwrap(), 1_000);
@@ -204,7 +232,7 @@ mod tests {
     #[test]
     fn test_invalid_transfer() {
         let alice = Mint::new(11_000);
-        let mut acc = Accountant::new(&alice);
+        let acc = Accountant::new(&alice);
         let bob_pubkey = KeyPair::new().pubkey();
         acc.transfer(1_000, &alice.keypair(), bob_pubkey, alice.last_id())
             .unwrap();
@@ -221,7 +249,7 @@ mod tests {
     #[test]
     fn test_transfer_to_newb() {
         let alice = Mint::new(10_000);
-        let mut acc = Accountant::new(&alice);
+        let acc = Accountant::new(&alice);
         let alice_keypair = alice.keypair();
         let bob_pubkey = KeyPair::new().pubkey();
         acc.transfer(500, &alice_keypair, bob_pubkey, alice.last_id())
@@ -232,7 +260,7 @@ mod tests {
     #[test]
     fn test_transfer_on_date() {
         let alice = Mint::new(1);
-        let mut acc = Accountant::new(&alice);
+        let acc = Accountant::new(&alice);
         let alice_keypair = alice.keypair();
         let bob_pubkey = KeyPair::new().pubkey();
         let dt = Utc::now();
@@ -258,7 +286,7 @@ mod tests {
     #[test]
     fn test_transfer_after_date() {
         let alice = Mint::new(1);
-        let mut acc = Accountant::new(&alice);
+        let acc = Accountant::new(&alice);
         let alice_keypair = alice.keypair();
         let bob_pubkey = KeyPair::new().pubkey();
         let dt = Utc::now();
@@ -275,7 +303,7 @@ mod tests {
     #[test]
     fn test_cancel_transfer() {
         let alice = Mint::new(1);
-        let mut acc = Accountant::new(&alice);
+        let acc = Accountant::new(&alice);
         let alice_keypair = alice.keypair();
         let bob_pubkey = KeyPair::new().pubkey();
         let dt = Utc::now();
@@ -301,9 +329,56 @@ mod tests {
     #[test]
     fn test_duplicate_event_signature() {
         let alice = Mint::new(1);
-        let mut acc = Accountant::new(&alice);
+        let acc = Accountant::new(&alice);
         let sig = Signature::default();
-        assert!(acc.reserve_signature(&sig));
-        assert!(!acc.reserve_signature(&sig));
+        let last_id = Hash::default();
+        assert!(acc.reserve_signature_with_last_id(&sig, &last_id));
+        assert!(!acc.reserve_signature_with_last_id(&sig, &last_id));
+    }
+}
+
+#[cfg(all(feature = "unstable", test))]
+mod bench {
+    extern crate test;
+    use self::test::Bencher;
+    use accountant::*;
+    use rayon::prelude::*;
+    use signature::KeyPairUtil;
+    use hash::hash;
+    use bincode::serialize;
+
+    #[bench]
+    fn process_verified_event_bench(bencher: &mut Bencher) {
+        let mint = Mint::new(100_000_000);
+        let acc = Accountant::new(&mint);
+        // Create transactions between unrelated parties.
+        let transactions: Vec<_> = (0..4096)
+            .into_par_iter()
+            .map(|i| {
+                // Seed the 'from' account.
+                let rando0 = KeyPair::new();
+                let tr = Transaction::new(&mint.keypair(), rando0.pubkey(), 1_000, mint.last_id());
+                acc.process_verified_transaction(&tr).unwrap();
+
+                // Seed the 'to' account and a cell for its signature.
+                let last_id = hash(&serialize(&i).unwrap()); // Unique hash
+                let rando1 = KeyPair::new();
+                let tr = Transaction::new(&rando0, rando1.pubkey(), 1, last_id);
+                acc.process_verified_transaction(&tr).unwrap();
+
+                // Finally, return a transaction that's unique
+                Transaction::new(&rando0, rando1.pubkey(), 1, last_id)
+            })
+            .collect();
+        bencher.iter(|| {
+            // Since benchmarker runs this multiple times, we need to clear the signatures.
+            for (_, sigs) in acc.last_ids.read().unwrap().iter() {
+                sigs.write().unwrap().clear();
+            }
+
+            transactions.par_iter().for_each(|tr| {
+                acc.process_verified_transaction(tr).unwrap();
+            });
+        });
     }
 }

src/bin/testnode.rs

@@ -32,7 +32,7 @@ fn main() {
         None
     };
 
-    let mut acc = Accountant::new_from_deposit(&deposit.unwrap());
+    let acc = Accountant::new_from_deposit(&deposit.unwrap());
 
     let mut last_id = entry1.id;
     for entry in entries {