lotus/chain/sub/incoming.go

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package sub
import (
"context"
"errors"
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"fmt"
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"time"
"golang.org/x/xerrors"
address "github.com/filecoin-project/go-address"
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lru "github.com/hashicorp/golang-lru"
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blocks "github.com/ipfs/go-block-format"
bserv "github.com/ipfs/go-blockservice"
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"github.com/ipfs/go-cid"
cbor "github.com/ipfs/go-ipld-cbor"
logging "github.com/ipfs/go-log/v2"
connmgr "github.com/libp2p/go-libp2p-core/connmgr"
"github.com/libp2p/go-libp2p-core/peer"
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pubsub "github.com/libp2p/go-libp2p-pubsub"
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cbg "github.com/whyrusleeping/cbor-gen"
"go.opencensus.io/stats"
"go.opencensus.io/tag"
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blockadt "github.com/filecoin-project/specs-actors/actors/util/adt"
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"github.com/filecoin-project/lotus/build"
"github.com/filecoin-project/lotus/chain"
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"github.com/filecoin-project/lotus/chain/messagepool"
"github.com/filecoin-project/lotus/chain/stmgr"
"github.com/filecoin-project/lotus/chain/store"
"github.com/filecoin-project/lotus/chain/types"
"github.com/filecoin-project/lotus/lib/blockstore"
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"github.com/filecoin-project/lotus/lib/sigs"
"github.com/filecoin-project/lotus/metrics"
"github.com/filecoin-project/lotus/node/impl/client"
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)
var log = logging.Logger("sub")
var ErrSoftFailure = errors.New("soft validation failure")
var ErrInsufficientPower = errors.New("incoming block's miner does not have minimum power")
var msgCidPrefix = cid.Prefix{
Version: 1,
Codec: cid.DagCBOR,
MhType: client.DefaultHashFunction,
MhLength: 32,
}
func HandleIncomingBlocks(ctx context.Context, bsub *pubsub.Subscription, s *chain.Syncer, bs bserv.BlockService, cmgr connmgr.ConnManager) {
// Timeout after (block time + propagation delay). This is useless at
// this point.
timeout := time.Duration(build.BlockDelaySecs+build.PropagationDelaySecs) * time.Second
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for {
msg, err := bsub.Next(ctx)
if err != nil {
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if ctx.Err() != nil {
log.Warn("quitting HandleIncomingBlocks loop")
return
}
log.Error("error from block subscription: ", err)
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continue
}
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blk, ok := msg.ValidatorData.(*types.BlockMsg)
if !ok {
log.Warnf("pubsub block validator passed on wrong type: %#v", msg.ValidatorData)
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return
}
src := msg.GetFrom()
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go func() {
ctx, cancel := context.WithTimeout(ctx, timeout)
defer cancel()
// NOTE: we could also share a single session between
// all requests but that may have other consequences.
ses := bserv.NewSession(ctx, bs)
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start := build.Clock.Now()
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log.Debug("about to fetch messages for block from pubsub")
bmsgs, err := FetchMessagesByCids(ctx, ses, blk.BlsMessages)
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if err != nil {
log.Errorf("failed to fetch all bls messages for block received over pubusb: %s; source: %s", err, src)
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return
}
smsgs, err := FetchSignedMessagesByCids(ctx, ses, blk.SecpkMessages)
if err != nil {
log.Errorf("failed to fetch all secpk messages for block received over pubusb: %s; source: %s", err, src)
return
}
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took := build.Clock.Since(start)
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log.Debugw("new block over pubsub", "cid", blk.Header.Cid(), "source", msg.GetFrom(), "msgfetch", took)
if took > 3*time.Second {
log.Warnw("Slow msg fetch", "cid", blk.Header.Cid(), "source", msg.GetFrom(), "msgfetch", took)
}
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if delay := build.Clock.Now().Unix() - int64(blk.Header.Timestamp); delay > 5 {
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log.Warnf("Received block with large delay %d from miner %s", delay, blk.Header.Miner)
}
if s.InformNewBlock(msg.ReceivedFrom, &types.FullBlock{
Header: blk.Header,
BlsMessages: bmsgs,
SecpkMessages: smsgs,
}) {
cmgr.TagPeer(msg.ReceivedFrom, "blkprop", 5)
}
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}()
}
}
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func FetchMessagesByCids(
ctx context.Context,
bserv bserv.BlockGetter,
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cids []cid.Cid,
) ([]*types.Message, error) {
out := make([]*types.Message, len(cids))
err := fetchCids(ctx, bserv, cids, func(i int, b blocks.Block) error {
msg, err := types.DecodeMessage(b.RawData())
if err != nil {
return err
}
out[i] = msg
return nil
})
if err != nil {
return nil, err
}
return out, nil
}
// FIXME: Duplicate of above.
func FetchSignedMessagesByCids(
ctx context.Context,
bserv bserv.BlockGetter,
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cids []cid.Cid,
) ([]*types.SignedMessage, error) {
out := make([]*types.SignedMessage, len(cids))
err := fetchCids(ctx, bserv, cids, func(i int, b blocks.Block) error {
smsg, err := types.DecodeSignedMessage(b.RawData())
if err != nil {
return err
}
out[i] = smsg
return nil
})
if err != nil {
return nil, err
}
return out, nil
}
// Fetch `cids` from the block service, apply `cb` on each of them. Used
// by the fetch message functions above.
// We check that each block is received only once and we do not received
// blocks we did not request.
func fetchCids(
ctx context.Context,
bserv bserv.BlockGetter,
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cids []cid.Cid,
cb func(int, blocks.Block) error,
) error {
ctx, cancel := context.WithCancel(ctx)
defer cancel()
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cidIndex := make(map[cid.Cid]int)
for i, c := range cids {
if c.Prefix() != msgCidPrefix {
return fmt.Errorf("invalid msg CID: %s", c)
}
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cidIndex[c] = i
}
if len(cids) != len(cidIndex) {
return fmt.Errorf("duplicate CIDs in fetchCids input")
}
for block := range bserv.GetBlocks(ctx, cids) {
ix, ok := cidIndex[block.Cid()]
if !ok {
// Ignore duplicate/unexpected blocks. This shouldn't
// happen, but we can be safe.
log.Errorw("received duplicate/unexpected block when syncing", "cid", block.Cid())
continue
}
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// Record that we've received the block.
delete(cidIndex, block.Cid())
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if err := cb(ix, block); err != nil {
return err
}
}
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if len(cidIndex) > 0 {
err := ctx.Err()
if err == nil {
err = fmt.Errorf("failed to fetch %d messages for unknown reasons", len(cidIndex))
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}
return err
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}
return nil
}
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type BlockValidator struct {
self peer.ID
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peers *lru.TwoQueueCache
killThresh int
recvBlocks *blockReceiptCache
blacklist func(peer.ID)
// necessary for block validation
chain *store.ChainStore
stmgr *stmgr.StateManager
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}
func NewBlockValidator(self peer.ID, chain *store.ChainStore, stmgr *stmgr.StateManager, blacklist func(peer.ID)) *BlockValidator {
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p, _ := lru.New2Q(4096)
return &BlockValidator{
self: self,
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peers: p,
killThresh: 10,
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blacklist: blacklist,
recvBlocks: newBlockReceiptCache(),
chain: chain,
stmgr: stmgr,
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}
}
func (bv *BlockValidator) flagPeer(p peer.ID) {
v, ok := bv.peers.Get(p)
if !ok {
bv.peers.Add(p, int(1))
return
}
val := v.(int)
if val >= bv.killThresh {
log.Warnf("blacklisting peer %s", p)
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bv.blacklist(p)
return
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}
bv.peers.Add(p, v.(int)+1)
}
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func (bv *BlockValidator) Validate(ctx context.Context, pid peer.ID, msg *pubsub.Message) pubsub.ValidationResult {
if pid == bv.self {
return bv.validateLocalBlock(ctx, msg)
}
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// track validation time
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begin := build.Clock.Now()
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defer func() {
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log.Debugf("block validation time: %s", build.Clock.Since(begin))
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}()
stats.Record(ctx, metrics.BlockReceived.M(1))
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recordFailureFlagPeer := func(what string) {
recordFailure(ctx, metrics.BlockValidationFailure, what)
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bv.flagPeer(pid)
}
blk, what, err := bv.decodeAndCheckBlock(msg)
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if err != nil {
log.Error("got invalid block over pubsub: ", err)
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recordFailureFlagPeer(what)
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return pubsub.ValidationReject
}
// validate the block meta: the Message CID in the header must match the included messages
err = bv.validateMsgMeta(ctx, blk)
if err != nil {
log.Warnf("error validating message metadata: %s", err)
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recordFailureFlagPeer("invalid_block_meta")
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return pubsub.ValidationReject
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}
// we want to ensure that it is a block from a known miner; we reject blocks from unknown miners
// to prevent spam attacks.
// the logic works as follows: we lookup the miner in the chain for its key.
// if we can find it then it's a known miner and we can validate the signature.
// if we can't find it, we check whether we are (near) synced in the chain.
// if we are not synced we cannot validate the block and we must ignore it.
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// if we are synced and the miner is unknown, then the block is rejcected.
key, err := bv.checkPowerAndGetWorkerKey(ctx, blk.Header)
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if err != nil {
if err != ErrSoftFailure && bv.isChainNearSynced() {
log.Warnf("received block from unknown miner or miner that doesn't meet min power over pubsub; rejecting message")
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recordFailureFlagPeer("unknown_miner")
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return pubsub.ValidationReject
}
log.Warnf("cannot validate block message; unknown miner or miner that doesn't meet min power in unsynced chain")
return pubsub.ValidationIgnore
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}
err = sigs.CheckBlockSignature(ctx, blk.Header, key)
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if err != nil {
log.Errorf("block signature verification failed: %s", err)
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recordFailureFlagPeer("signature_verification_failed")
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return pubsub.ValidationReject
}
if blk.Header.ElectionProof.WinCount < 1 {
log.Errorf("block is not claiming to be winning")
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recordFailureFlagPeer("not_winning")
return pubsub.ValidationReject
}
// it's a good block! make sure we've only seen it once
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if bv.recvBlocks.add(blk.Header.Cid()) > 0 {
// TODO: once these changes propagate to the network, we can consider
// dropping peers who send us the same block multiple times
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return pubsub.ValidationIgnore
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}
// all good, accept the block
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msg.ValidatorData = blk
stats.Record(ctx, metrics.BlockValidationSuccess.M(1))
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return pubsub.ValidationAccept
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}
func (bv *BlockValidator) validateLocalBlock(ctx context.Context, msg *pubsub.Message) pubsub.ValidationResult {
stats.Record(ctx, metrics.BlockPublished.M(1))
if size := msg.Size(); size > 1<<20-1<<15 {
log.Errorf("ignoring oversize block (%dB)", size)
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ctx, _ = tag.New(ctx, tag.Insert(metrics.FailureType, "oversize_block"))
stats.Record(ctx, metrics.BlockValidationFailure.M(1))
return pubsub.ValidationIgnore
}
blk, what, err := bv.decodeAndCheckBlock(msg)
if err != nil {
log.Errorf("got invalid local block: %s", err)
ctx, _ = tag.New(ctx, tag.Insert(metrics.FailureType, what))
stats.Record(ctx, metrics.BlockValidationFailure.M(1))
return pubsub.ValidationIgnore
}
if count := bv.recvBlocks.add(blk.Header.Cid()); count > 0 {
log.Warnf("local block has been seen %d times; ignoring", count)
return pubsub.ValidationIgnore
}
msg.ValidatorData = blk
stats.Record(ctx, metrics.BlockValidationSuccess.M(1))
return pubsub.ValidationAccept
}
func (bv *BlockValidator) decodeAndCheckBlock(msg *pubsub.Message) (*types.BlockMsg, string, error) {
blk, err := types.DecodeBlockMsg(msg.GetData())
if err != nil {
return nil, "invalid", xerrors.Errorf("error decoding block: %w", err)
}
if count := len(blk.BlsMessages) + len(blk.SecpkMessages); count > build.BlockMessageLimit {
return nil, "too_many_messages", fmt.Errorf("block contains too many messages (%d)", count)
}
// make sure we have a signature
if blk.Header.BlockSig == nil {
return nil, "missing_signature", fmt.Errorf("block without a signature")
}
return blk, "", nil
}
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func (bv *BlockValidator) isChainNearSynced() bool {
ts := bv.chain.GetHeaviestTipSet()
timestamp := ts.MinTimestamp()
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timestampTime := time.Unix(int64(timestamp), 0)
return build.Clock.Since(timestampTime) < 6*time.Hour
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}
func (bv *BlockValidator) validateMsgMeta(ctx context.Context, msg *types.BlockMsg) error {
// TODO there has to be a simpler way to do this without the blockstore dance
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// block headers use adt0
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store := blockadt.WrapStore(ctx, cbor.NewCborStore(blockstore.NewTemporary()))
bmArr := blockadt.MakeEmptyArray(store)
smArr := blockadt.MakeEmptyArray(store)
for i, m := range msg.BlsMessages {
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c := cbg.CborCid(m)
if err := bmArr.Set(uint64(i), &c); err != nil {
return err
}
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}
for i, m := range msg.SecpkMessages {
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c := cbg.CborCid(m)
if err := smArr.Set(uint64(i), &c); err != nil {
return err
}
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}
bmroot, err := bmArr.Root()
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if err != nil {
return err
}
smroot, err := smArr.Root()
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if err != nil {
return err
}
mrcid, err := store.Put(store.Context(), &types.MsgMeta{
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BlsMessages: bmroot,
SecpkMessages: smroot,
})
if err != nil {
return err
}
if msg.Header.Messages != mrcid {
return fmt.Errorf("messages didn't match root cid in header")
}
return nil
}
func (bv *BlockValidator) checkPowerAndGetWorkerKey(ctx context.Context, bh *types.BlockHeader) (address.Address, error) {
// we check that the miner met the minimum power at the lookback tipset
baseTs := bv.chain.GetHeaviestTipSet()
lbts, lbst, err := stmgr.GetLookbackTipSetForRound(ctx, bv.stmgr, baseTs, bh.Height)
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if err != nil {
log.Warnf("failed to load lookback tipset for incoming block: %s", err)
return address.Undef, ErrSoftFailure
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}
key, err := stmgr.GetMinerWorkerRaw(ctx, bv.stmgr, lbst, bh.Miner)
if err != nil {
log.Warnf("failed to resolve worker key for miner %s: %s", bh.Miner, err)
return address.Undef, ErrSoftFailure
}
// NOTE: we check to see if the miner was eligible in the lookback
// tipset - 1 for historical reasons. DO NOT use the lookback state
// returned by GetLookbackTipSetForRound.
eligible, err := stmgr.MinerEligibleToMine(ctx, bv.stmgr, bh.Miner, baseTs, lbts)
if err != nil {
log.Warnf("failed to determine if incoming block's miner has minimum power: %s", err)
return address.Undef, ErrSoftFailure
}
if !eligible {
log.Warnf("incoming block's miner is ineligible")
return address.Undef, ErrInsufficientPower
}
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return key, nil
}
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type blockReceiptCache struct {
blocks *lru.TwoQueueCache
}
func newBlockReceiptCache() *blockReceiptCache {
c, _ := lru.New2Q(8192)
return &blockReceiptCache{
blocks: c,
}
}
func (brc *blockReceiptCache) add(bcid cid.Cid) int {
val, ok := brc.blocks.Get(bcid)
if !ok {
brc.blocks.Add(bcid, int(1))
return 0
}
brc.blocks.Add(bcid, val.(int)+1)
return val.(int)
}
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type MessageValidator struct {
self peer.ID
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mpool *messagepool.MessagePool
}
func NewMessageValidator(self peer.ID, mp *messagepool.MessagePool) *MessageValidator {
return &MessageValidator{self: self, mpool: mp}
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}
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func (mv *MessageValidator) Validate(ctx context.Context, pid peer.ID, msg *pubsub.Message) pubsub.ValidationResult {
if pid == mv.self {
return mv.validateLocalMessage(ctx, msg)
}
stats.Record(ctx, metrics.MessageReceived.M(1))
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m, err := types.DecodeSignedMessage(msg.Message.GetData())
if err != nil {
log.Warnf("failed to decode incoming message: %s", err)
ctx, _ = tag.New(ctx, tag.Insert(metrics.FailureType, "decode"))
stats.Record(ctx, metrics.MessageValidationFailure.M(1))
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return pubsub.ValidationReject
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}
if err := mv.mpool.Add(m); err != nil {
log.Debugf("failed to add message from network to message pool (From: %s, To: %s, Nonce: %d, Value: %s): %s", m.Message.From, m.Message.To, m.Message.Nonce, types.FIL(m.Message.Value), err)
ctx, _ = tag.New(
ctx,
tag.Upsert(metrics.Local, "false"),
)
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recordFailure(ctx, metrics.MessageValidationFailure, "add")
switch {
case xerrors.Is(err, messagepool.ErrSoftValidationFailure):
fallthrough
case xerrors.Is(err, messagepool.ErrRBFTooLowPremium):
fallthrough
case xerrors.Is(err, messagepool.ErrTooManyPendingMessages):
fallthrough
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case xerrors.Is(err, messagepool.ErrNonceGap):
fallthrough
case xerrors.Is(err, messagepool.ErrNonceTooLow):
return pubsub.ValidationIgnore
default:
return pubsub.ValidationReject
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}
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}
stats.Record(ctx, metrics.MessageValidationSuccess.M(1))
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return pubsub.ValidationAccept
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}
func (mv *MessageValidator) validateLocalMessage(ctx context.Context, msg *pubsub.Message) pubsub.ValidationResult {
ctx, _ = tag.New(
ctx,
tag.Upsert(metrics.Local, "true"),
)
// do some lightweight validation
stats.Record(ctx, metrics.MessagePublished.M(1))
m, err := types.DecodeSignedMessage(msg.Message.GetData())
if err != nil {
log.Warnf("failed to decode local message: %s", err)
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recordFailure(ctx, metrics.MessageValidationFailure, "decode")
return pubsub.ValidationIgnore
}
if m.Size() > 32*1024 {
log.Warnf("local message is too large! (%dB)", m.Size())
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recordFailure(ctx, metrics.MessageValidationFailure, "oversize")
return pubsub.ValidationIgnore
}
if m.Message.To == address.Undef {
log.Warn("local message has invalid destination address")
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recordFailure(ctx, metrics.MessageValidationFailure, "undef-addr")
return pubsub.ValidationIgnore
}
if !m.Message.Value.LessThan(types.TotalFilecoinInt) {
log.Warnf("local messages has too high value: %s", m.Message.Value)
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recordFailure(ctx, metrics.MessageValidationFailure, "value-too-high")
return pubsub.ValidationIgnore
}
if err := mv.mpool.VerifyMsgSig(m); err != nil {
log.Warnf("signature verification failed for local message: %s", err)
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recordFailure(ctx, metrics.MessageValidationFailure, "verify-sig")
return pubsub.ValidationIgnore
}
stats.Record(ctx, metrics.MessageValidationSuccess.M(1))
return pubsub.ValidationAccept
}
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func HandleIncomingMessages(ctx context.Context, mpool *messagepool.MessagePool, msub *pubsub.Subscription) {
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for {
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_, err := msub.Next(ctx)
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if err != nil {
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log.Warn("error from message subscription: ", err)
if ctx.Err() != nil {
log.Warn("quitting HandleIncomingMessages loop")
return
}
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continue
}
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// Do nothing... everything happens in validate
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}
}
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func recordFailure(ctx context.Context, metric *stats.Int64Measure, failureType string) {
ctx, _ = tag.New(
ctx,
tag.Upsert(metrics.FailureType, failureType),
)
stats.Record(ctx, metric.M(1))
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}