package messagepool import ( "context" "golang.org/x/xerrors" "math/big" "sort" "time" "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/vm" abig "github.com/filecoin-project/specs-actors/actors/abi/big" "github.com/ipfs/go-cid" ) var bigBlockGasLimit = big.NewInt(build.BlockGasLimit) type msgChain struct { msgs []*types.SignedMessage gasReward *big.Int gasLimit int64 gasPerf float64 valid bool next *msgChain } func (mp *MessagePool) SelectMessages(ts *types.TipSet) ([]*types.SignedMessage, error) { mp.curTsLk.Lock() curTs := mp.curTs mp.curTsLk.Unlock() mp.lk.Lock() defer mp.lk.Unlock() return mp.selectMessages(curTs, ts) } func (mp *MessagePool) selectMessages(curTs, ts *types.TipSet) ([]*types.SignedMessage, error) { start := time.Now() defer func() { log.Infof("message selection took %s", time.Since(start)) }() // 0. Load messages for the target tipset; if it is the same as the current tipset in the mpool // then this is just the pending messages pending, err := mp.getPendingMessages(curTs, ts) if err != nil { return nil, err } // 1. Create a list of dependent message chains with maximal gas reward per limit consumed var chains []*msgChain for actor, mset := range pending { next := mp.createMessageChains(actor, mset, ts) chains = append(chains, next...) } // 2. Sort the chains sort.Slice(chains, func(i, j int) bool { return chains[i].Before(chains[j]) }) // 3. Merge the head chains to produce the list of messages selected for inclusion, subject to // the block gas limit. result := make([]*types.SignedMessage, 0, mp.maxTxPoolSizeLo) gasLimit := int64(build.BlockGasLimit) minGas := int64(gasguess.MinGas) last := len(chains) for i, chain := range chains { // does it fit in the block? if chain.gasLimit <= gasLimit { gasLimit -= chain.gasLimit result = append(result, chain.msgs...) continue } // we can't fit this chain because of block gasLimit -- we are at the edge last = i break } // 4. We have reached the edge of what we can fit wholesale; if we still have available gasLimit // to pack some more chains, then trim the last chain and push it down. // Trimming invalidates subsequent dependent chains so that they can't be selected as their // dependency cannot be (fully) included. // We do this in a loop because the blocker might have been inordinately large and we might // have to do it multiple times to satisfy tail packing. tailLoop: for gasLimit >= minGas && last < len(chains) { // trim chains[last].Trim(gasLimit, mp, ts) // push down if it hasn't been invalidated if chains[last].valid { for i := last; i < len(chains)-1; i++ { if chains[i].Before(chains[i+1]) { break } chains[i], chains[i+1] = chains[i+1], chains[i] } } // select the next (valid and fitting) chain for inclusion for i, chain := range chains[last:] { // has the chain been invalidated if !chain.valid { continue } // does it fit in the bock? if chain.gasLimit <= gasLimit { gasLimit -= chain.gasLimit result = append(result, chain.msgs...) continue } // this chain needs to be trimmed last = i continue tailLoop } // the merge loop ended after processing all the chains and we probably still have gas to spare // -- mark the end. last = len(chains) } return result, nil } func (mp *MessagePool) getPendingMessages(curTs, ts *types.TipSet) (map[address.Address]map[uint64]*types.SignedMessage, error) { result := make(map[address.Address]map[uint64]*types.SignedMessage) haveCids := make(map[cid.Cid]struct{}) // are we in sync? inSync := false if curTs.Height() == ts.Height() && curTs.Equals(ts) { inSync = true } // first add our current pending messages for a, mset := range mp.pending { if inSync { // no need to copy the map result[a] = mset.msgs } else { // we need to copy the map to avoid clobbering it as we load more messages msetCopy := make(map[uint64]*types.SignedMessage, len(mset.msgs)) for nonce, m := range mset.msgs { msetCopy[nonce] = m } result[a] = msetCopy // mark the messages as seen for _, m := range mset.msgs { haveCids[m.Cid()] = struct{}{} } } } // we are in sync, that's the happy path if inSync { return result, nil } // nope, we need to sync the tipsets for { if curTs.Height() == ts.Height() { if curTs.Equals(ts) { return result, nil } // different blocks in tipsets -- we mark them as seen so that they are not included in // in the message set we return, but *neither me (vyzo) nor why understand why* // this code is also probably completely untested in production, so I am adding a big fat // warning to revisit this case and sanity check this decision. log.Warnf("mpool tipset has same height as target tipset but it's not equal; beware of dragons!") have, err := mp.MessagesForBlocks(ts.Blocks()) if err != nil { return nil, xerrors.Errorf("error retrieving messages for tipset: %w", err) } for _, m := range have { haveCids[m.Cid()] = struct{}{} } } msgs, err := mp.MessagesForBlocks(ts.Blocks()) if err != nil { return nil, xerrors.Errorf("error retrieving messages for tipset: %w", err) } for _, m := range msgs { if _, have := haveCids[m.Cid()]; have { continue } haveCids[m.Cid()] = struct{}{} mset, ok := result[m.Message.From] if !ok { mset = make(map[uint64]*types.SignedMessage) result[m.Message.From] = mset } other, dupNonce := mset[m.Message.Nonce] if dupNonce { // duplicate nonce, selfishly keep the message with the highest GasPrice // if the gas prices are the same, keep the one with the highest GasLimit switch m.Message.GasPrice.Int.Cmp(other.Message.GasPrice.Int) { case 0: if m.Message.GasLimit > other.Message.GasLimit { mset[m.Message.Nonce] = m } case 1: mset[m.Message.Nonce] = m } } else { mset[m.Message.Nonce] = m } } if curTs.Height() >= ts.Height() { return result, nil } ts, err = mp.api.LoadTipSet(ts.Parents()) if err != nil { return nil, xerrors.Errorf("error loading parent tipset: %w", err) } } } func (mp *MessagePool) getGasReward(msg *types.SignedMessage, ts *types.TipSet) *big.Int { al := func(ctx context.Context, addr address.Address, tsk types.TipSetKey) (*types.Actor, error) { return mp.api.StateGetActor(addr, ts) } gasUsed, err := gasguess.GuessGasUsed(context.TODO(), types.EmptyTSK, msg, al) if err != nil { gasUsed = int64(gasguess.MaxGas) if gasUsed > msg.Message.GasLimit/2 { gasUsed = msg.Message.GasLimit / 2 } // if we start seeing this warning we may have a problem with spammers! log.Warnf("Cannot guess gas usage for message: %s; using %d", err, gasUsed) } gasReward := abig.Mul(msg.Message.GasPrice, types.NewInt(uint64(gasUsed))) return gasReward.Int } func (mp *MessagePool) getGasPerf(gasReward *big.Int, gasLimit int64) float64 { // gasPerf = gasReward * build.BlockGasLimit / gasLimit a := new(big.Rat).SetInt(new(big.Int).Mul(gasReward, bigBlockGasLimit)) b := big.NewRat(1, gasLimit) c := new(big.Rat).Mul(a, b) r, _ := c.Float64() return r } func (mp *MessagePool) createMessageChains(actor address.Address, mset map[uint64]*types.SignedMessage, ts *types.TipSet) []*msgChain { // collect all messages msgs := make([]*types.SignedMessage, 0, len(mset)) for _, m := range mset { msgs = append(msgs, m) } // sort by nonce sort.Slice(msgs, func(i, j int) bool { return msgs[i].Message.Nonce < msgs[j].Message.Nonce }) // sanity checks: // - there can be no gaps in nonces, starting from the current actor nonce // if there is a gap, drop messages after the gap, we can't include them // - all messages must have minimum gas and the total gas for the candidate messages // cannot exceed the block limit; drop all messages that exceed the limit // - the total gasReward cannot exceed the actor's balance; drop all messages that exceed // the balance a, _ := mp.api.StateGetActor(actor, nil) curNonce := a.Nonce balance := a.Balance.Int gasLimit := int64(0) i := 0 rewards := make([]*big.Int, 0, len(msgs)) for i = 0; i < len(msgs); i++ { m := msgs[i] if m.Message.Nonce < curNonce { log.Warnf("encountered message from actor %s with nonce (%d) less than the current nonce (%d)", actor, m.Message.Nonce, curNonce) continue } if m.Message.Nonce != curNonce { break } curNonce++ minGas := vm.PricelistByEpoch(ts.Height()).OnChainMessage(m.ChainLength()).Total() if m.Message.GasLimit < minGas { break } gasLimit += m.Message.GasLimit if gasLimit > build.BlockGasLimit { break } required := m.Message.RequiredFunds().Int if balance.Cmp(required) < 0 { break } balance = new(big.Int).Sub(balance, required) gasReward := mp.getGasReward(m, ts) rewards = append(rewards, gasReward) } // check we have a sane set of messages to construct the chains if i > 0 { msgs = msgs[:i] } else { return nil } // ok, now we can construct the chains using the messages we have // invariant: each chain has a bigger gasPerf than the next -- otherwise they can be merged // and increase the gasPerf of the first chain // We do this in two passes: // - in the first pass we create chains that aggreagate messages with non-decreasing gasPerf // - in the second pass we merge chains to maintain the invariant. var chains []*msgChain var curChain *msgChain newChain := func(m *types.SignedMessage, i int) *msgChain { chain := new(msgChain) chain.msgs = []*types.SignedMessage{m} chain.gasReward = rewards[i] chain.gasLimit = m.Message.GasLimit chain.gasPerf = mp.getGasPerf(chain.gasReward, chain.gasLimit) chain.valid = true return chain } // create the individual chains for i, m := range msgs { if curChain == nil { curChain = newChain(m, i) continue } gasReward := new(big.Int).Add(curChain.gasReward, rewards[i]) gasLimit := curChain.gasLimit + m.Message.GasLimit gasPerf := mp.getGasPerf(gasReward, gasLimit) // try to add the message to the current chain -- if it decreases the gasPerf, then make a // new chain if gasPerf < curChain.gasPerf { chains = append(chains, curChain) curChain = newChain(m, i) } else { curChain.msgs = append(curChain.msgs, m) curChain.gasReward = gasReward curChain.gasLimit = gasLimit curChain.gasPerf = gasPerf } } chains = append(chains, curChain) // merge chains to maintain the invariant for { merged := 0 for i := len(chains) - 1; i > 0; i-- { if chains[i].gasPerf > chains[i-1].gasPerf { chains[i-1].msgs = append(chains[i-1].msgs, chains[i].msgs...) chains[i-1].gasReward = new(big.Int).Add(chains[i-1].gasReward, chains[i].gasReward) chains[i-1].gasLimit += chains[i].gasLimit chains[i-1].gasPerf = mp.getGasPerf(chains[i-1].gasReward, chains[i-1].gasLimit) chains[i].valid = false merged++ } } if merged == 0 { break } // drop invalidated chains newChains := make([]*msgChain, 0, len(chains)-merged) for _, c := range chains { if c.valid { newChains = append(newChains, c) } } chains = newChains } // link dependent chains for i := 0; i < len(chains)-1; i++ { chains[i].next = chains[i+1] } return chains } func (mc *msgChain) Before(other *msgChain) bool { return mc.gasPerf > other.gasPerf || (mc.gasPerf == other.gasPerf && mc.gasReward.Cmp(other.gasReward) > 0) } func (mc *msgChain) Trim(gasLimit int64, mp *MessagePool, ts *types.TipSet) { i := len(mc.msgs) - 1 for i >= 0 && mc.gasLimit > gasLimit { gasLimit -= mc.msgs[i].Message.GasLimit gasReward := mp.getGasReward(mc.msgs[i], ts) mc.gasReward = new(big.Int).Sub(mc.gasReward, gasReward) mc.gasLimit -= mc.msgs[i].Message.GasLimit if mc.gasLimit > 0 { mc.gasPerf = mp.getGasPerf(mc.gasReward, mc.gasLimit) } else { mc.gasPerf = 0 } i-- } if i < 0 { mc.msgs = nil mc.valid = false } else { mc.msgs = mc.msgs[:i+1] } if mc.next != nil { mc.next.invalidate() mc.next = nil } } func (mc *msgChain) invalidate() { mc.valid = false mc.msgs = nil if mc.next != nil { mc.next.invalidate() mc.next = nil } }