frostfs-node/cmd/frostfs-node/morph.go

package main

import (
	"context"
	"errors"
	"fmt"
	"time"

	morphconfig "git.frostfs.info/TrueCloudLab/frostfs-node/cmd/frostfs-node/config/morph"
	"git.frostfs.info/TrueCloudLab/frostfs-node/internal/logs"
	"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/core/netmap"
	"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/morph/client"
	nmClient "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/morph/client/netmap"
	"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/morph/event"
	netmapEvent "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/morph/event/netmap"
	"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/morph/subscriber"
	"git.frostfs.info/TrueCloudLab/frostfs-node/pkg/util/rand"
	"github.com/nspcc-dev/neo-go/pkg/core/block"
	"github.com/nspcc-dev/neo-go/pkg/core/state"
	"github.com/nspcc-dev/neo-go/pkg/util"
	"go.uber.org/zap"
)

const (
	newEpochNotification = "NewEpoch"

	// amount of tries(blocks) before notary deposit timeout.
	notaryDepositRetriesAmount = 300
)

func initMorphComponents(ctx context.Context, c *cfg) {
	addresses := morphconfig.RPCEndpoint(c.appCfg)

	// Morph client stable-sorts endpoints by priority. Shuffle here to randomize
	// order of endpoints with the same priority.
	rand.Shuffle(len(addresses), func(i, j int) {
		addresses[i], addresses[j] = addresses[j], addresses[i]
	})

	cli, err := client.New(ctx,
		c.key,
		client.WithDialTimeout(morphconfig.DialTimeout(c.appCfg)),
		client.WithLogger(c.log),
		client.WithMetrics(c.metricsCollector.MorphClientMetrics()),
		client.WithEndpoints(addresses...),
		client.WithConnLostCallback(func() {
			c.internalErr <- errors.New("morph connection has been lost")
		}),
		client.WithSwitchInterval(morphconfig.SwitchInterval(c.appCfg)),
		client.WithMorphCacheMetrics(c.metricsCollector.MorphCacheMetrics()),
		client.WithCompatibilityMode(c.cmode),
	)
	if err != nil {
		c.log.Info(logs.FrostFSNodeFailedToCreateNeoRPCClient,
			zap.Any("endpoints", addresses),
			zap.String("error", err.Error()),
		)

		fatalOnErr(err)
	}

	c.onShutdown(func() {
		c.log.Info(logs.FrostFSNodeClosingMorphComponents)
		cli.Close()
	})

	if err := cli.SetGroupSignerScope(); err != nil {
		c.log.Info(logs.FrostFSNodeFailedToSetGroupSignerScopeContinueWithGlobal, zap.Error(err))
	}

	c.cfgMorph.client = cli
	c.cfgMorph.notaryEnabled = cli.ProbeNotary()

	lookupScriptHashesInNNS(c) // smart contract auto negotiation

	if c.cfgMorph.notaryEnabled {
		err = c.cfgMorph.client.EnableNotarySupport(
			client.WithProxyContract(
				c.cfgMorph.proxyScriptHash,
			),
		)
		fatalOnErr(err)
	}

	c.log.Info(logs.FrostFSNodeNotarySupport,
		zap.Bool("sidechain_enabled", c.cfgMorph.notaryEnabled),
	)

	wrap, err := nmClient.NewFromMorph(c.cfgMorph.client, c.cfgNetmap.scriptHash, 0, nmClient.TryNotary())
	fatalOnErr(err)

	var netmapSource netmap.Source

	c.cfgMorph.cacheTTL = morphconfig.CacheTTL(c.appCfg)

	if c.cfgMorph.cacheTTL == 0 {
		msPerBlock, err := c.cfgMorph.client.MsPerBlock()
		fatalOnErr(err)
		c.cfgMorph.cacheTTL = time.Duration(msPerBlock) * time.Millisecond
		c.log.Debug(logs.FrostFSNodeMorphcacheTTLFetchedFromNetwork, zap.Duration("value", c.cfgMorph.cacheTTL))
	}

	if c.cfgMorph.cacheTTL < 0 {
		netmapSource = wrap
	} else {
		// use RPC node as source of netmap (with caching)
		netmapSource = newCachedNetmapStorage(c.cfgNetmap.state, wrap)
	}

	c.netMapSource = netmapSource
	c.cfgNetmap.wrapper = wrap
}

func makeAndWaitNotaryDeposit(ctx context.Context, c *cfg) {
	// skip notary deposit in non-notary environments
	if !c.cfgMorph.notaryEnabled {
		return
	}

	tx, err := makeNotaryDeposit(c)
	fatalOnErr(err)

	if tx.Equals(util.Uint256{}) {
		// non-error deposit with an empty TX hash means
		// that the deposit has already been made; no
		// need to wait it.
		c.log.Info(logs.FrostFSNodeNotaryDepositHasAlreadyBeenMade)
		return
	}

	err = waitNotaryDeposit(ctx, c, tx)
	fatalOnErr(err)
}

func makeNotaryDeposit(c *cfg) (util.Uint256, error) {
	const (
		// gasMultiplier defines how many times more the notary
		// balance must be compared to the GAS balance of the node:
		//     notaryBalance = GASBalance * gasMultiplier
		gasMultiplier = 3

		// gasDivisor defines what part of GAS balance (1/gasDivisor)
		// should be transferred to the notary service
		gasDivisor = 2
	)

	depositAmount, err := client.CalculateNotaryDepositAmount(c.cfgMorph.client, gasMultiplier, gasDivisor)
	if err != nil {
		return util.Uint256{}, fmt.Errorf("could not calculate notary deposit: %w", err)
	}

	return c.cfgMorph.client.DepositEndlessNotary(depositAmount)
}

var (
	errNotaryDepositFail    = errors.New("notary deposit tx has faulted")
	errNotaryDepositTimeout = errors.New("notary deposit tx has not appeared in the network")
)

func waitNotaryDeposit(ctx context.Context, c *cfg, tx util.Uint256) error {
	for i := 0; i < notaryDepositRetriesAmount; i++ {
		c.log.Debug(logs.ClientAttemptToWaitForNotaryDepositTransactionToGetPersisted)
		select {
		case <-ctx.Done():
			return ctx.Err()
		default:
		}

		ok, err := c.cfgMorph.client.TxHalt(tx)
		if err == nil {
			if ok {
				c.log.Info(logs.ClientNotaryDepositTransactionWasSuccessfullyPersisted)
				return nil
			}

			return errNotaryDepositFail
		}

		err = c.cfgMorph.client.Wait(ctx, 1)
		if err != nil {
			return fmt.Errorf("could not wait for one block in chain: %w", err)
		}
	}

	return errNotaryDepositTimeout
}

func listenMorphNotifications(ctx context.Context, c *cfg) {
	var (
		err  error
		subs subscriber.Subscriber
	)

	fromSideChainBlock, err := c.persistate.UInt32(persistateSideChainLastBlockKey)
	if err != nil {
		fromSideChainBlock = 0
		c.log.Warn(logs.FrostFSNodeCantGetLastProcessedSideChainBlockNumber, zap.String("error", err.Error()))
	}

	subs, err = subscriber.New(ctx, &subscriber.Params{
		Log:            c.log,
		StartFromBlock: fromSideChainBlock,
		Client:         c.cfgMorph.client,
	})
	fatalOnErr(err)

	lis, err := event.NewListener(event.ListenerParams{
		Logger:     c.log,
		Subscriber: subs,
	})
	fatalOnErr(err)

	c.onShutdown(func() {
		lis.Stop()
	})

	c.workers = append(c.workers, newWorkerFromFunc(func(wCtx context.Context) {
		runAndLog(wCtx, c, "morph notification", false, func(lCtx context.Context, c *cfg) {
			lis.ListenWithError(lCtx, c.internalErr)
		})
	}))

	setNetmapNotificationParser(c, newEpochNotification, func(src *state.ContainedNotificationEvent) (event.Event, error) {
		res, err := netmapEvent.ParseNewEpoch(src)
		if err == nil {
			c.log.Info(logs.FrostFSNodeNewEpochEventFromSidechain,
				zap.Uint64("number", res.(netmapEvent.NewEpoch).EpochNumber()),
			)
		}

		return res, err
	})
	registerNotificationHandlers(c.cfgNetmap.scriptHash, lis, c.cfgNetmap.parsers, c.cfgNetmap.subscribers)
	registerNotificationHandlers(c.cfgContainer.scriptHash, lis, c.cfgContainer.parsers, c.cfgContainer.subscribers)

	registerBlockHandler(lis, func(block *block.Block) {
		c.log.Debug(logs.FrostFSNodeNewBlock, zap.Uint32("index", block.Index))

		err = c.persistate.SetUInt32(persistateSideChainLastBlockKey, block.Index)
		if err != nil {
			c.log.Warn(logs.FrostFSNodeCantUpdatePersistentState,
				zap.String("chain", "side"),
				zap.Uint32("block_index", block.Index))
		}
	})
}

func registerNotificationHandlers(scHash util.Uint160, lis event.Listener, parsers map[event.Type]event.NotificationParser,
	subs map[event.Type][]event.Handler,
) {
	for typ, handlers := range subs {
		pi := event.NotificationParserInfo{}
		pi.SetType(typ)
		pi.SetScriptHash(scHash)

		p, ok := parsers[typ]
		if !ok {
			panic(fmt.Sprintf("missing parser for event %s", typ))
		}

		pi.SetParser(p)

		lis.SetNotificationParser(pi)

		for _, h := range handlers {
			hi := event.NotificationHandlerInfo{}
			hi.SetType(typ)
			hi.SetScriptHash(scHash)
			hi.SetHandler(h)

			lis.RegisterNotificationHandler(hi)
		}
	}
}

func registerBlockHandler(lis event.Listener, handler event.BlockHandler) {
	lis.RegisterBlockHandler(handler)
}

// lookupScriptHashesInNNS looks up for contract script hashes in NNS contract of side
// chain if they were not specified in config file.
func lookupScriptHashesInNNS(c *cfg) {
	var (
		err error

		emptyHash = util.Uint160{}
		targets   = [...]struct {
			h       *util.Uint160
			nnsName string
		}{
			{&c.cfgNetmap.scriptHash, client.NNSNetmapContractName},
			{&c.cfgAccounting.scriptHash, client.NNSBalanceContractName},
			{&c.cfgContainer.scriptHash, client.NNSContainerContractName},
			{&c.cfgFrostfsID.scriptHash, client.NNSFrostFSIDContractName},
			{&c.cfgMorph.proxyScriptHash, client.NNSProxyContractName},
			{&c.cfgObject.cfgAccessPolicyEngine.policyContractHash, client.NNSPolicyContractName},
		}
	)

	for _, t := range targets {
		if t.nnsName == client.NNSProxyContractName && !c.cfgMorph.notaryEnabled {
			continue // ignore proxy contract if notary disabled
		}

		if emptyHash.Equals(*t.h) {
			*t.h, err = c.cfgMorph.client.NNSContractAddress(t.nnsName)
			fatalOnErrDetails(fmt.Sprintf("can't resolve %s in NNS", t.nnsName), err)
		}
	}
}