package messagepool import ( "context" "testing" "github.com/filecoin-project/go-address" "github.com/filecoin-project/lotus/build" "github.com/filecoin-project/lotus/chain/messagepool/gasguess" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/chain/types/mock" "github.com/filecoin-project/lotus/chain/wallet" "github.com/filecoin-project/specs-actors/actors/builtin" "github.com/filecoin-project/specs-actors/actors/crypto" "github.com/ipfs/go-datastore" _ "github.com/filecoin-project/lotus/lib/sigs/bls" _ "github.com/filecoin-project/lotus/lib/sigs/secp" ) func makeTestMessage(w *wallet.Wallet, from, to address.Address, nonce uint64, gasLimit int64, gasPrice uint64) *types.SignedMessage { msg := &types.Message{ From: from, To: to, Method: 2, Value: types.FromFil(0), Nonce: nonce, GasLimit: gasLimit, GasPrice: types.NewInt(gasPrice), } sig, err := w.Sign(context.TODO(), from, msg.Cid().Bytes()) if err != nil { panic(err) } return &types.SignedMessage{ Message: *msg, Signature: *sig, } } func makeTestMpool() (*MessagePool, *testMpoolAPI) { tma := newTestMpoolAPI() ds := datastore.NewMapDatastore() mp, err := New(tma, ds, "test") if err != nil { panic(err) } return mp, tma } func TestMessageChains(t *testing.T) { mp, tma := makeTestMpool() // the actors w1, err := wallet.NewWallet(wallet.NewMemKeyStore()) if err != nil { t.Fatal(err) } a1, err := w1.GenerateKey(crypto.SigTypeBLS) if err != nil { t.Fatal(err) } w2, err := wallet.NewWallet(wallet.NewMemKeyStore()) if err != nil { t.Fatal(err) } a2, err := w2.GenerateKey(crypto.SigTypeBLS) if err != nil { t.Fatal(err) } block := mock.MkBlock(nil, 1, 1) ts := mock.TipSet(block) gasLimit := gasguess.Costs[gasguess.CostKey{builtin.StorageMarketActorCodeID, 2}] tma.setBalance(a1, 1) // in FIL // test chain aggregations // test1: 10 messages from a1 to a2, with increasing gasPerf; it should // make a single chain with 10 messages given enough balance mset := make(map[uint64]*types.SignedMessage) for i := 0; i < 10; i++ { m := makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(i+1)) mset[uint64(i)] = m } chains := mp.createMessageChains(a1, mset, ts) if len(chains) != 1 { t.Fatal("expected a single chain") } if len(chains[0].msgs) != 10 { t.Fatalf("expected 10 messages in the chain but got %d", len(chains[0].msgs)) } for i, m := range chains[0].msgs { if m.Message.Nonce != uint64(i) { t.Fatalf("expected nonce %d but got %d", i, m.Message.Nonce) } } // test2 : 10 messages from a1 to a2, with decreasing gasPerf; it should // make 10 chains with 1 message each mset = make(map[uint64]*types.SignedMessage) for i := 0; i < 10; i++ { m := makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(10-i)) mset[uint64(i)] = m } chains = mp.createMessageChains(a1, mset, ts) if len(chains) != 10 { t.Fatal("expected 10 chains") } for i, chain := range chains { if len(chain.msgs) != 1 { t.Fatalf("expected 1 message in chain %d but got %d", i, len(chain.msgs)) } } for i, chain := range chains { m := chain.msgs[0] if m.Message.Nonce != uint64(i) { t.Fatalf("expected nonce %d but got %d", i, m.Message.Nonce) } } // test3a: 10 messages from a1 to a2, with gasPerf increasing in groups of 3; it should // merge them in two chains, one with 9 messages and one with the last message mset = make(map[uint64]*types.SignedMessage) for i := 0; i < 10; i++ { m := makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(1+i%3)) mset[uint64(i)] = m } chains = mp.createMessageChains(a1, mset, ts) if len(chains) != 2 { t.Fatal("expected 1 chain") } if len(chains[0].msgs) != 9 { t.Fatalf("expected 9 messages in the chain but got %d", len(chains[0].msgs)) } if len(chains[1].msgs) != 1 { t.Fatalf("expected 1 messages in the chain but got %d", len(chains[1].msgs)) } nextNonce := 0 for _, chain := range chains { for _, m := range chain.msgs { if m.Message.Nonce != uint64(nextNonce) { t.Fatalf("expected nonce %d but got %d", nextNonce, m.Message.Nonce) } nextNonce++ } } // test3b: 10 messages from a1 to a2, with gasPerf decreasing in groups of 3 with a bias for the // earlier chains; it should make 4 chains, the first 3 with 3 messages and the last with // a single message mset = make(map[uint64]*types.SignedMessage) for i := 0; i < 10; i++ { bias := (12 - i) / 3 m := makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(1+i%3+bias)) mset[uint64(i)] = m } chains = mp.createMessageChains(a1, mset, ts) if len(chains) != 4 { t.Fatal("expected 4 chains") } for i, chain := range chains { expectedLen := 3 if i > 2 { expectedLen = 1 } if len(chain.msgs) != expectedLen { t.Fatalf("expected %d message in chain %d but got %d", expectedLen, i, len(chain.msgs)) } } nextNonce = 0 for _, chain := range chains { for _, m := range chain.msgs { if m.Message.Nonce != uint64(nextNonce) { t.Fatalf("expected nonce %d but got %d", nextNonce, m.Message.Nonce) } nextNonce++ } } // test chain breaks // test4: 10 messages with non-consecutive nonces; it should make a single chain with just // the first message mset = make(map[uint64]*types.SignedMessage) for i := 0; i < 10; i++ { m := makeTestMessage(w1, a1, a2, uint64(i*2), gasLimit, uint64(i+1)) mset[uint64(i)] = m } chains = mp.createMessageChains(a1, mset, ts) if len(chains) != 1 { t.Fatal("expected a single chain") } if len(chains[0].msgs) != 1 { t.Fatalf("expected 1 message in the chain but got %d", len(chains[0].msgs)) } for i, m := range chains[0].msgs { if m.Message.Nonce != uint64(i) { t.Fatalf("expected nonce %d but got %d", i, m.Message.Nonce) } } // test5: 10 messages with increasing gasLimit, except for the 6th message which has less than // the epoch gasLimit; it should create a single chain with the first 5 messages mset = make(map[uint64]*types.SignedMessage) for i := 0; i < 10; i++ { var m *types.SignedMessage if i != 5 { m = makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(i+1)) } else { m = makeTestMessage(w1, a1, a2, uint64(i), 1, uint64(i+1)) } mset[uint64(i)] = m } chains = mp.createMessageChains(a1, mset, ts) if len(chains) != 1 { t.Fatal("expected a single chain") } if len(chains[0].msgs) != 5 { t.Fatalf("expected 5 message in the chain but got %d", len(chains[0].msgs)) } for i, m := range chains[0].msgs { if m.Message.Nonce != uint64(i) { t.Fatalf("expected nonce %d but got %d", i, m.Message.Nonce) } } // test6: one more message than what can fit in a block according to gas limit, with increasing // gasPerf; it should create a single chain with the max messages maxMessages := int(build.BlockGasLimit / gasLimit) nMessages := maxMessages + 1 mset = make(map[uint64]*types.SignedMessage) for i := 0; i < nMessages; i++ { mset[uint64(i)] = makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(i+1)) } chains = mp.createMessageChains(a1, mset, ts) if len(chains) != 1 { t.Fatal("expected a single chain") } if len(chains[0].msgs) != maxMessages { t.Fatalf("expected %d message in the chain but got %d", maxMessages, len(chains[0].msgs)) } for i, m := range chains[0].msgs { if m.Message.Nonce != uint64(i) { t.Fatalf("expected nonce %d but got %d", i, m.Message.Nonce) } } // test5: insufficient balance for all messages tma.setBalanceRaw(a1, types.NewInt(uint64(3*gasLimit+1))) mset = make(map[uint64]*types.SignedMessage) for i := 0; i < 10; i++ { mset[uint64(i)] = makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(i+1)) } chains = mp.createMessageChains(a1, mset, ts) if len(chains) != 1 { t.Fatal("expected a single chain") } if len(chains[0].msgs) != 2 { t.Fatalf("expected %d message in the chain but got %d", 2, len(chains[0].msgs)) } for i, m := range chains[0].msgs { if m.Message.Nonce != uint64(i) { t.Fatalf("expected nonce %d but got %d", i, m.Message.Nonce) } } } func TestBasicMessageSelection(t *testing.T) { mp, tma := makeTestMpool() // the actors w1, err := wallet.NewWallet(wallet.NewMemKeyStore()) if err != nil { t.Fatal(err) } a1, err := w1.GenerateKey(crypto.SigTypeBLS) if err != nil { t.Fatal(err) } w2, err := wallet.NewWallet(wallet.NewMemKeyStore()) if err != nil { t.Fatal(err) } a2, err := w2.GenerateKey(crypto.SigTypeBLS) if err != nil { t.Fatal(err) } block := mock.MkBlock(nil, 1, 1) ts := mock.TipSet(block) tma.applyBlock(t, block) gasLimit := gasguess.Costs[gasguess.CostKey{builtin.StorageMarketActorCodeID, 2}] tma.setBalance(a1, 1) // in FIL tma.setBalance(a2, 1) // in FIL // we create 10 messages from each actor to another, with the first actor paying higher // gas prices than the second; we expect message selection to order his messages first for i := 0; i < 10; i++ { m := makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(2*i+1)) mustAdd(t, mp, m) } for i := 0; i < 10; i++ { m := makeTestMessage(w2, a2, a1, uint64(i), gasLimit, uint64(i+1)) mustAdd(t, mp, m) } msgs, err := mp.SelectMessages(ts) if err != nil { t.Fatal(err) } if len(msgs) != 20 { t.Fatalf("exptected 20 messages, got %d", len(msgs)) } nextNonce := 0 for i := 0; i < 10; i++ { if msgs[i].Message.From != a1 { t.Fatalf("expected message from actor a1") } if msgs[i].Message.Nonce != uint64(nextNonce) { t.Fatalf("expected nonce %d, got %d", msgs[i].Message.Nonce, nextNonce) } nextNonce++ } nextNonce = 0 for i := 10; i < 20; i++ { if msgs[i].Message.From != a2 { t.Fatalf("expected message from actor a2") } if msgs[i].Message.Nonce != uint64(nextNonce) { t.Fatalf("expected nonce %d, got %d", msgs[i].Message.Nonce, nextNonce) } nextNonce++ } // now we make a block with all the messages and advance the chain block2 := mock.MkBlock(ts, 2, 2) tma.setBlockMessages(block2, msgs...) tma.applyBlock(t, block2) // we should have no pending messages in the mpool pend, ts2 := mp.Pending() if len(pend) != 0 { t.Fatalf("expected no pending messages, but got %d", len(pend)) } // create a block and advance the chain without applying to the mpool msgs = nil for i := 10; i < 20; i++ { m := makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(2*i+1)) msgs = append(msgs, m) m = makeTestMessage(w2, a2, a1, uint64(i), gasLimit, uint64(i+1)) msgs = append(msgs, m) } block3 := mock.MkBlock(ts2, 3, 3) tma.setBlockMessages(block3, msgs...) ts3 := mock.TipSet(block3) // now create another set of messages and add them to the mpool for i := 20; i < 30; i++ { m := makeTestMessage(w1, a1, a2, uint64(i), gasLimit, uint64(2*i+1)) mustAdd(t, mp, m) m = makeTestMessage(w2, a2, a1, uint64(i), gasLimit, uint64(i+1)) mustAdd(t, mp, m) } // select messages in the last tipset; this should include the missed messages as well as // the last messages we added, with the first actor's messages first // first we need to update the nonce on the tma tma.setStateNonce(a1, 10) tma.setStateNonce(a2, 10) msgs, err = mp.SelectMessages(ts3) if err != nil { t.Fatal(err) } if len(msgs) != 40 { t.Fatalf("expected 40 messages, got %d", len(msgs)) } nextNonce = 10 for i := 0; i < 20; i++ { if msgs[i].Message.From != a1 { t.Fatalf("expected message from actor a1") } if msgs[i].Message.Nonce != uint64(nextNonce) { t.Fatalf("expected nonce %d, got %d", msgs[i].Message.Nonce, nextNonce) } nextNonce++ } nextNonce = 10 for i := 20; i < 40; i++ { if msgs[i].Message.From != a2 { t.Fatalf("expected message from actor a2") } if msgs[i].Message.Nonce != uint64(nextNonce) { t.Fatalf("expected nonce %d, got %d", msgs[i].Message.Nonce, nextNonce) } nextNonce++ } }