507 lines
14 KiB
Go
507 lines
14 KiB
Go
// Package raft implements a Consensus component for IPFS Cluster which uses
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// Raft (go-libp2p-raft).
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package consensus
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import (
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"bytes"
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"context"
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"errors"
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"fmt"
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"sort"
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"time"
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"github.com/google/uuid"
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"golang.org/x/exp/slices"
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addr "github.com/filecoin-project/go-address"
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"github.com/filecoin-project/lotus/api"
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"github.com/filecoin-project/lotus/chain/messagepool"
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"github.com/filecoin-project/lotus/chain/types"
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"github.com/filecoin-project/lotus/lib/addrutil"
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"github.com/filecoin-project/lotus/node/repo"
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//ds "github.com/ipfs/go-datastore"
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logging "github.com/ipfs/go-log/v2"
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consensus "github.com/libp2p/go-libp2p-consensus"
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rpc "github.com/libp2p/go-libp2p-gorpc"
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libp2praft "github.com/libp2p/go-libp2p-raft"
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host "github.com/libp2p/go-libp2p/core/host"
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peer "github.com/libp2p/go-libp2p/core/peer"
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)
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var logger = logging.Logger("raft")
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type RaftState struct {
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NonceMap api.NonceMapType
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MsgUuids api.MsgUuidMapType
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// TODO: add comment explaining why this is needed
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// We need a reference to the messagepool in the raft state in order to
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// sync messages that have been sent by the leader node
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// Miner calls StateWaitMsg after MpoolPushMessage to check if the message has
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// landed on chain. This check requires the message be stored in the local chainstore
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// If a leadernode goes down after sending a message to the chain and is replaced by
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// another node, the other node needs to have this message in its chainstore for the
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// above check to succeed.
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// This is because the miner only stores signed CIDs but the message received from in a
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// block will be unsigned (for BLS). Hence, the process relies on the node to store the
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// signed message which holds a copy of the unsigned message to properly perform all the
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// needed checks
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Mpool *messagepool.MessagePool
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}
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func newRaftState(mpool *messagepool.MessagePool) *RaftState {
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return &RaftState{
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NonceMap: make(map[addr.Address]uint64),
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MsgUuids: make(map[uuid.UUID]*types.SignedMessage),
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Mpool: mpool,
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}
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}
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type ConsensusOp struct {
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Nonce uint64 `codec:"nonce,omitempty"`
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Uuid uuid.UUID `codec:"uuid,omitempty"`
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Addr addr.Address `codec:"addr,omitempty"`
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SignedMsg *types.SignedMessage `codec:"signedMsg,omitempty"`
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}
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func (c ConsensusOp) ApplyTo(state consensus.State) (consensus.State, error) {
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s := state.(*RaftState)
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s.NonceMap[c.Addr] = c.Nonce
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if c.SignedMsg != nil {
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// Deep copy to tmp
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var buffer bytes.Buffer
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err := c.SignedMsg.MarshalCBOR(&buffer)
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if err != nil {
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return nil, err
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}
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tmp, err := types.DecodeSignedMessage(buffer.Bytes())
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if err != nil {
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return nil, err
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}
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s.MsgUuids[c.Uuid] = tmp
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_, err = s.Mpool.Push(context.TODO(), tmp, false)
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// Since this is only meant to keep messages in sync, ignore any error which
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// shows the message already exists in the mpool
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if err != nil && !api.ErrorIsIn(err, []error{messagepool.ErrExistingNonce}) {
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return nil, err
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}
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}
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return s, nil
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}
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var _ consensus.Op = &ConsensusOp{}
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// Consensus handles the work of keeping a shared-state between
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// the peers of a Lotus Cluster, as well as modifying that state and
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// applying any updates in a thread-safe manner.
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type Consensus struct {
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ctx context.Context
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cancel func()
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config *ClusterRaftConfig
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host host.Host
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consensus consensus.OpLogConsensus
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actor consensus.Actor
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raft *raftWrapper
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state *RaftState
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RpcClient *rpc.Client
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rpcReady chan struct{}
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readyCh chan struct{}
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peerSet []peer.ID
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repo repo.LockedRepo
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}
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// NewConsensus builds a new ClusterConsensus component using Raft.
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//
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// Raft saves state snapshots regularly and persists log data in a bolt
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// datastore. Therefore, unless memory usage is a concern, it is recommended
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// to use an in-memory go-datastore as store parameter.
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//
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// The staging parameter controls if the Raft peer should start in
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// staging mode (used when joining a new Raft peerset with other peers).
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func NewConsensus(host host.Host, cfg *ClusterRaftConfig, mpool *messagepool.MessagePool, repo repo.LockedRepo, staging bool) (*Consensus, error) {
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err := ValidateConfig(cfg)
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if err != nil {
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return nil, err
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}
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ctx, cancel := context.WithCancel(context.Background())
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logger.Debug("starting Consensus and waiting for a leader...")
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state := newRaftState(mpool)
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consensus := libp2praft.NewOpLog(state, &ConsensusOp{})
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raft, err := newRaftWrapper(host, cfg, consensus.FSM(), repo, staging)
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if err != nil {
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logger.Error("error creating raft: ", err)
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cancel()
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return nil, err
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}
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actor := libp2praft.NewActor(raft.raft)
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consensus.SetActor(actor)
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peers := []peer.ID{}
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addrInfos, err := addrutil.ParseAddresses(ctx, cfg.InitPeerset)
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for _, addrInfo := range addrInfos {
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peers = append(peers, addrInfo.ID)
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// Add peer to address book
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host.Peerstore().AddAddrs(addrInfo.ID, addrInfo.Addrs, time.Hour*100)
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}
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cc := &Consensus{
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ctx: ctx,
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cancel: cancel,
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config: cfg,
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host: host,
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consensus: consensus,
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actor: actor,
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state: state,
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raft: raft,
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peerSet: peers,
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rpcReady: make(chan struct{}, 1),
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readyCh: make(chan struct{}, 1),
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repo: repo,
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}
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go cc.finishBootstrap()
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return cc, nil
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}
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// TODO: Merge with NewConsensus and remove the rpcReady chan
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func NewConsensusWithRPCClient(staging bool) func(host host.Host,
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cfg *ClusterRaftConfig,
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rpcClient *rpc.Client,
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mpool *messagepool.MessagePool,
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repo repo.LockedRepo,
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) (*Consensus, error) {
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return func(host host.Host, cfg *ClusterRaftConfig, rpcClient *rpc.Client, mpool *messagepool.MessagePool, repo repo.LockedRepo) (*Consensus, error) {
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cc, err := NewConsensus(host, cfg, mpool, repo, staging)
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if err != nil {
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return nil, err
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}
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cc.RpcClient = rpcClient
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cc.rpcReady <- struct{}{}
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return cc, nil
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}
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}
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// WaitForSync waits for a leader and for the state to be up to date, then returns.
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func (cc *Consensus) WaitForSync(ctx context.Context) error {
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leaderCtx, cancel := context.WithTimeout(ctx, cc.config.WaitForLeaderTimeout)
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defer cancel()
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// 1 - wait for leader
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// 2 - wait until we are a Voter
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// 3 - wait until last index is applied
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// From raft docs:
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// once a staging server receives enough log entries to be sufficiently
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// caught up to the leader's log, the leader will invoke a membership
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// change to change the Staging server to a Voter
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// Thus, waiting to be a Voter is a guarantee that we have a reasonable
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// up to date state. Otherwise, we might return too early (see
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// https://github.com/ipfs-cluster/ipfs-cluster/issues/378)
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_, err := cc.raft.WaitForLeader(leaderCtx)
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if err != nil {
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return errors.New("error waiting for leader: " + err.Error())
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}
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err = cc.raft.WaitForVoter(ctx)
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if err != nil {
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return errors.New("error waiting to become a Voter: " + err.Error())
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}
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err = cc.raft.WaitForUpdates(ctx)
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if err != nil {
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return errors.New("error waiting for consensus updates: " + err.Error())
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}
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return nil
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}
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// waits until there is a consensus leader and syncs the state
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// to the tracker. If errors happen, this will return and never
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// signal the component as Ready.
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func (cc *Consensus) finishBootstrap() {
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// wait until we have RPC to perform any actions.
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select {
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case <-cc.ctx.Done():
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return
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case <-cc.rpcReady:
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}
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// Sometimes bootstrap is a no-Op. It only applies when
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// no state exists and staging=false.
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_, err := cc.raft.Bootstrap()
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if err != nil {
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return
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}
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logger.Debugf("Bootstrap finished")
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err = cc.WaitForSync(cc.ctx)
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if err != nil {
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return
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}
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logger.Debug("Raft state is now up to date")
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logger.Debug("consensus ready")
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cc.readyCh <- struct{}{}
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}
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// Shutdown stops the component so it will not process any
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// more updates. The underlying consensus is permanently
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// shutdown, along with the libp2p transport.
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func (cc *Consensus) Shutdown(ctx context.Context) error {
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logger.Info("stopping Consensus component")
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// Raft Shutdown
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err := cc.raft.Shutdown(ctx)
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if err != nil {
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logger.Error(err)
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}
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cc.cancel()
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close(cc.rpcReady)
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return nil
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}
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// Ready returns a channel which is signaled when the Consensus
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// algorithm has finished bootstrapping and is ready to use
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func (cc *Consensus) Ready(ctx context.Context) <-chan struct{} {
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return cc.readyCh
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}
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// IsTrustedPeer returns true. In Raft we trust all peers.
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func (cc *Consensus) IsTrustedPeer(ctx context.Context, p peer.ID) bool {
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return slices.Contains(cc.peerSet, p)
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}
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// Trust is a no-Op.
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func (cc *Consensus) Trust(ctx context.Context, pid peer.ID) error { return nil }
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// Distrust is a no-Op.
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func (cc *Consensus) Distrust(ctx context.Context, pid peer.ID) error { return nil }
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// returns true if the operation was redirected to the leader
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// note that if the leader just dissappeared, the rpc call will
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// fail because we haven't heard that it's gone.
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func (cc *Consensus) RedirectToLeader(method string, arg interface{}, ret interface{}) (bool, error) {
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ctx := cc.ctx
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var finalErr error
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// Retry redirects
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for i := 0; i <= cc.config.CommitRetries; i++ {
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logger.Debugf("redirect try %d", i)
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leader, err := cc.Leader(ctx)
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// No leader, wait for one
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if err != nil {
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logger.Warn("there seems to be no leader. Waiting for one")
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rctx, cancel := context.WithTimeout(ctx, cc.config.WaitForLeaderTimeout)
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defer cancel()
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pidstr, err := cc.raft.WaitForLeader(rctx)
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// means we timed out waiting for a leader
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// we don't retry in this case
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if err != nil {
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return false, fmt.Errorf("timed out waiting for leader: %s", err)
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}
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leader, err = peer.Decode(pidstr)
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if err != nil {
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return false, err
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}
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}
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logger.Infof("leader: %s, curr host: %s, peerSet: %s", leader, cc.host.ID(), cc.peerSet)
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// We are the leader. Do not redirect
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if leader == cc.host.ID() {
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return false, nil
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}
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logger.Debugf("redirecting %s to leader: %s", method, leader.Pretty())
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finalErr = cc.RpcClient.CallContext(
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ctx,
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leader,
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"Consensus",
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method,
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arg,
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ret,
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)
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if finalErr != nil {
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logger.Errorf("retrying to redirect request to leader: %s", finalErr)
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time.Sleep(2 * cc.config.RaftConfig.HeartbeatTimeout)
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continue
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}
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break
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}
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// We tried to redirect, but something happened
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return true, finalErr
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}
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// commit submits a cc.consensus commit. It retries upon failures.
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func (cc *Consensus) Commit(ctx context.Context, op *ConsensusOp) error {
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var finalErr error
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for i := 0; i <= cc.config.CommitRetries; i++ {
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logger.Debugf("attempt #%d: committing %+v", i, op)
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// this means we are retrying
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if finalErr != nil {
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logger.Errorf("retrying upon failed commit (retry %d): %s ",
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i, finalErr)
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}
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// Being here means we are the LEADER. We can commit.
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// now commit the changes to our state
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_, finalErr = cc.consensus.CommitOp(op)
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if finalErr != nil {
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goto RETRY
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}
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RETRY:
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time.Sleep(cc.config.CommitRetryDelay)
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}
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return finalErr
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}
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// AddPeer adds a new peer to participate in this consensus. It will
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// forward the operation to the leader if this is not it.
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func (cc *Consensus) AddPeer(ctx context.Context, pid peer.ID) error {
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var finalErr error
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for i := 0; i <= cc.config.CommitRetries; i++ {
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logger.Debugf("attempt #%d: AddPeer %s", i, pid.Pretty())
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if finalErr != nil {
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logger.Errorf("retrying to add peer. Attempt #%d failed: %s", i, finalErr)
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}
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ok, err := cc.RedirectToLeader("AddPeer", pid, struct{}{})
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if err != nil || ok {
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return err
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}
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// Being here means we are the leader and can commit
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finalErr = cc.raft.AddPeer(ctx, pid)
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if finalErr != nil {
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time.Sleep(cc.config.CommitRetryDelay)
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continue
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}
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logger.Infof("peer added to Raft: %s", pid.Pretty())
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break
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}
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return finalErr
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}
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// RmPeer removes a peer from this consensus. It will
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// forward the operation to the leader if this is not it.
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func (cc *Consensus) RmPeer(ctx context.Context, pid peer.ID) error {
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var finalErr error
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for i := 0; i <= cc.config.CommitRetries; i++ {
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logger.Debugf("attempt #%d: RmPeer %s", i, pid.Pretty())
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if finalErr != nil {
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logger.Errorf("retrying to remove peer. Attempt #%d failed: %s", i, finalErr)
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}
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ok, err := cc.RedirectToLeader("RmPeer", pid, struct{}{})
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if err != nil || ok {
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return err
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}
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// Being here means we are the leader and can commit
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finalErr = cc.raft.RemovePeer(ctx, peer.Encode(pid))
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if finalErr != nil {
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time.Sleep(cc.config.CommitRetryDelay)
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continue
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}
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logger.Infof("peer removed from Raft: %s", pid.Pretty())
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break
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}
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return finalErr
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}
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// RaftState retrieves the current consensus RaftState. It may error if no RaftState has
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// been agreed upon or the state is not consistent. The returned RaftState is the
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// last agreed-upon RaftState known by this node. No writes are allowed, as all
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// writes to the shared state should happen through the Consensus component
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// methods.
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func (cc *Consensus) State(ctx context.Context) (*RaftState, error) {
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st, err := cc.consensus.GetLogHead()
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if err == libp2praft.ErrNoState {
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return newRaftState(nil), nil
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}
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if err != nil {
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return nil, err
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}
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state, ok := st.(*RaftState)
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if !ok {
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return nil, errors.New("wrong state type")
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}
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return state, nil
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}
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// Leader returns the peerID of the Leader of the
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// cluster. It returns an error when there is no leader.
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func (cc *Consensus) Leader(ctx context.Context) (peer.ID, error) {
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// Note the hard-dependency on raft here...
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raftactor := cc.actor.(*libp2praft.Actor)
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return raftactor.Leader()
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}
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// Clean removes the Raft persisted state.
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func (cc *Consensus) Clean(ctx context.Context) error {
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//return CleanupRaft(cc.config)
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return nil
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}
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//Rollback replaces the current agreed-upon
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//state with the state provided. Only the consensus leader
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//can perform this operation.
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//func (cc *Consensus) Rollback(state RaftState) error {
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// // This is unused. It *might* be used for upgrades.
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// // There is rather untested magic in libp2p-raft's FSM()
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// // to make this possible.
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// return cc.consensus.Rollback(state)
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//}
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// Peers return the current list of peers in the consensus.
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// The list will be sorted alphabetically.
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func (cc *Consensus) Peers(ctx context.Context) ([]peer.ID, error) {
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peers := []peer.ID{}
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raftPeers, err := cc.raft.Peers(ctx)
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if err != nil {
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return nil, fmt.Errorf("cannot retrieve list of peers: %s", err)
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}
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sort.Strings(raftPeers)
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for _, p := range raftPeers {
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id, err := peer.Decode(p)
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if err != nil {
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panic("could not decode peer")
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}
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peers = append(peers, id)
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}
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return peers, nil
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}
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func (cc *Consensus) IsLeader(ctx context.Context) bool {
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leader, _ := cc.Leader(ctx)
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return leader == cc.host.ID()
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}
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