ipld-eth-beacon-indexer/pkg/beaconclient/processslot.go
Abdul Rabbani 347984a547
Feature/44 read write historic slots (#46)
* Update boot to set processing type.

* Handle entries from the historic_process table.

* Update on-pr.yml

* Fix head processing Error

* Update names and debug

* Seperate checking for new entries and locking them

* Application can process historic and known gaps

Untested

* Handle genesis

* Update remove entry for knownGaps, viper

* Disregard unused code from linter
2022-05-24 16:18:55 -04:00

314 lines
12 KiB
Go

// VulcanizeDB
// Copyright © 2022 Vulcanize
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
// This file will keep track of all the code needed to process a slot.
// To process a slot, it should have all the necessary data needed to write it to the DB.
// But not actually write it.
package beaconclient
import (
"context"
"encoding/hex"
"fmt"
"strconv"
"strings"
si "github.com/prysmaticlabs/prysm/consensus-types/interfaces"
"github.com/prysmaticlabs/prysm/consensus-types/wrapper"
dt "github.com/prysmaticlabs/prysm/encoding/ssz/detect"
// The below is temporary, once https://github.com/prysmaticlabs/prysm/issues/10006 has been resolved we wont need it.
// pb "github.com/prysmaticlabs/prysm/proto/prysm/v2"
state "github.com/prysmaticlabs/prysm/beacon-chain/state"
log "github.com/sirupsen/logrus"
"github.com/vulcanize/ipld-ethcl-indexer/pkg/database/sql"
"github.com/vulcanize/ipld-ethcl-indexer/pkg/loghelper"
"golang.org/x/sync/errgroup"
)
var (
SlotUnmarshalError = func(obj string) string {
return fmt.Sprintf("Unable to properly unmarshal the Slot field in the %s.", obj)
}
ParentRootUnmarshalError = "Unable to properly unmarshal the ParentRoot field in the SignedBeaconBlock."
MissingEth1Data = "Can't get the Eth1 block_hash"
VersionedUnmarshalerError = "Unable to create a versioned unmarshaler"
)
type ProcessSlot struct {
// Generic
Slot int // The slot number.
Epoch int // The epoch number.
BlockRoot string // The hex encoded string of the BlockRoot.
StateRoot string // The hex encoded string of the StateRoot.
ParentBlockRoot string // The hex encoded string of the parent block.
Status string // The status of the block
HeadOrHistoric string // Is this the head or a historic slot. This is critical when trying to analyze errors and skipped slots.
Db sql.Database // The DB object used to write to the DB.
Metrics *BeaconClientMetrics // An object to keep track of the beaconclient metrics
// BeaconBlock
SszSignedBeaconBlock []byte // The entire SSZ encoded SignedBeaconBlock
FullSignedBeaconBlock si.SignedBeaconBlock // The unmarshaled BeaconState object, the unmarshalling could have errors.
// BeaconState
FullBeaconState state.BeaconState // The unmarshaled BeaconState object, the unmarshalling could have errors.
SszBeaconState []byte // The entire SSZ encoded BeaconState
// DB Write objects
DbSlotsModel *DbSlots // The model being written to the slots table.
DbSignedBeaconBlockModel *DbSignedBeaconBlock // The model being written to the signed_beacon_block table.
DbBeaconState *DbBeaconState // The model being written to the beacon_state table.
}
// This function will do all the work to process the slot and write it to the DB.
// It will return the error and error process. The error process is used for providing reach detail to the
// known_gaps table.
func processFullSlot(db sql.Database, serverAddress string, slot int, blockRoot string, stateRoot string, previousSlot int, previousBlockRoot string, headOrHistoric string, metrics *BeaconClientMetrics, knownGapsTableIncrement int) (error, string) {
ps := &ProcessSlot{
Slot: slot,
BlockRoot: blockRoot,
StateRoot: stateRoot,
HeadOrHistoric: headOrHistoric,
Db: db,
Metrics: metrics,
}
g, _ := errgroup.WithContext(context.Background())
vUnmarshalerCh := make(chan *dt.VersionedUnmarshaler, 1)
// Get the BeaconState.
g.Go(func() error {
err := ps.getBeaconState(serverAddress, vUnmarshalerCh)
if err != nil {
return err
}
return nil
})
// Get the SignedBeaconBlock.
g.Go(func() error {
err := ps.getSignedBeaconBlock(serverAddress, vUnmarshalerCh)
if err != nil {
return err
}
return nil
})
if err := g.Wait(); err != nil {
return err, "processSlot"
}
// Get this object ready to write
dw, err := ps.createWriteObjects()
if err != nil {
return err, "blockRoot"
}
// Write the object to the DB.
err = dw.writeFullSlot()
if err != nil {
return err, "processSlot"
}
// Handle any reorgs or skipped slots.
headOrHistoric = strings.ToLower(headOrHistoric)
if headOrHistoric != "head" && headOrHistoric != "historic" {
return fmt.Errorf("headOrHistoric must be either historic or head!"), ""
}
if ps.HeadOrHistoric == "head" && previousSlot != 0 && previousBlockRoot != "" && ps.Status != "skipped" {
ps.checkPreviousSlot(previousSlot, previousBlockRoot, knownGapsTableIncrement)
}
return nil, ""
}
// Handle a slot that is at head. A wrapper function for calling `handleFullSlot`.
func processHeadSlot(db sql.Database, serverAddress string, slot int, blockRoot string, stateRoot string, previousSlot int, previousBlockRoot string, metrics *BeaconClientMetrics, knownGapsTableIncrement int) {
// Get the knownGaps at startUp.
if previousSlot == 0 && previousBlockRoot == "" {
writeStartUpGaps(db, knownGapsTableIncrement, slot, metrics)
}
err, errReason := processFullSlot(db, serverAddress, slot, blockRoot, stateRoot, previousSlot, previousBlockRoot, "head", metrics, knownGapsTableIncrement)
if err != nil {
writeKnownGaps(db, knownGapsTableIncrement, slot, slot, err, errReason, metrics)
}
}
// Handle a historic slot. A wrapper function for calling `handleFullSlot`.
func handleHistoricSlot(db sql.Database, serverAddress string, slot int, metrics *BeaconClientMetrics) (error, string) {
return processFullSlot(db, serverAddress, slot, "", "", 0, "", "historic", metrics, 1)
}
// Update the SszSignedBeaconBlock and FullSignedBeaconBlock object with their respective values.
func (ps *ProcessSlot) getSignedBeaconBlock(serverAddress string, vmCh <-chan *dt.VersionedUnmarshaler) error {
var blockIdentifier string // Used to query the block
if ps.BlockRoot != "" {
blockIdentifier = ps.BlockRoot
} else {
blockIdentifier = strconv.Itoa(ps.Slot)
}
blockEndpoint := serverAddress + BcBlockQueryEndpoint + blockIdentifier
var err error
var rc int
ps.SszSignedBeaconBlock, rc, err = querySsz(blockEndpoint, strconv.Itoa(ps.Slot))
if err != nil {
loghelper.LogSlotError(strconv.Itoa(ps.Slot), err).Error("Unable to properly query the slot.")
return err
}
vm := <-vmCh
if rc != 200 {
ps.FullSignedBeaconBlock = &wrapper.Phase0SignedBeaconBlock{}
ps.SszSignedBeaconBlock = []byte{}
ps.ParentBlockRoot = ""
ps.Status = "skipped"
return nil
}
if vm == nil {
return fmt.Errorf(VersionedUnmarshalerError)
}
ps.FullSignedBeaconBlock, err = vm.UnmarshalBeaconBlock(ps.SszSignedBeaconBlock)
if err != nil {
loghelper.LogSlotError(strconv.Itoa(ps.Slot), err).Error("We are getting an error message when unmarshalling the SignedBeaconBlock.")
if ps.FullSignedBeaconBlock.Block().Slot() == 0 {
loghelper.LogSlotError(strconv.Itoa(ps.Slot), err).Error(SlotUnmarshalError("SignedBeaconBlock"))
return fmt.Errorf(SlotUnmarshalError("SignedBeaconBlock"))
} else if ps.FullSignedBeaconBlock.Block().ParentRoot() == nil {
loghelper.LogSlotError(strconv.Itoa(ps.Slot), err).Error(ParentRootUnmarshalError)
return fmt.Errorf(ParentRootUnmarshalError)
}
log.Warn("We received a processing error: ", err)
}
ps.ParentBlockRoot = "0x" + hex.EncodeToString(ps.FullSignedBeaconBlock.Block().ParentRoot())
return nil
}
// Update the SszBeaconState and FullBeaconState object with their respective values.
func (ps *ProcessSlot) getBeaconState(serverEndpoint string, vmCh chan<- *dt.VersionedUnmarshaler) error {
var stateIdentifier string // Used to query the state
if ps.StateRoot != "" {
stateIdentifier = ps.StateRoot
} else {
stateIdentifier = strconv.Itoa(ps.Slot)
}
stateEndpoint := serverEndpoint + BcStateQueryEndpoint + stateIdentifier
ps.SszBeaconState, _, _ = querySsz(stateEndpoint, strconv.Itoa(ps.Slot))
versionedUnmarshaler, err := dt.FromState(ps.SszBeaconState)
if err != nil {
loghelper.LogSlotError(strconv.Itoa(ps.Slot), err).Error(VersionedUnmarshalerError)
vmCh <- nil
return fmt.Errorf(VersionedUnmarshalerError)
}
vmCh <- versionedUnmarshaler
ps.FullBeaconState, err = versionedUnmarshaler.UnmarshalBeaconState(ps.SszBeaconState)
if err != nil {
loghelper.LogError(err).Error("We are getting an error message when unmarshalling the BeaconState")
if ps.FullBeaconState.Slot() == 0 {
loghelper.LogSlotError(strconv.Itoa(ps.Slot), err).Error(SlotUnmarshalError("BeaconState"))
return fmt.Errorf(SlotUnmarshalError("BeaconState"))
} else if hex.EncodeToString(ps.FullBeaconState.Eth1Data().BlockHash) == "" {
loghelper.LogSlotError(strconv.Itoa(ps.Slot), err).Error(MissingEth1Data)
return fmt.Errorf(MissingEth1Data)
}
}
return nil
}
// Check to make sure that the previous block we processed is the parent of the current block.
func (ps *ProcessSlot) checkPreviousSlot(previousSlot int, previousBlockRoot string, knownGapsTableIncrement int) {
parentRoot := "0x" + hex.EncodeToString(ps.FullSignedBeaconBlock.Block().ParentRoot())
if previousSlot == int(ps.FullBeaconState.Slot()) {
log.WithFields(log.Fields{
"slot": ps.FullBeaconState.Slot(),
"fork": true,
}).Warn("A fork occurred! The previous slot and current slot match.")
writeReorgs(ps.Db, strconv.Itoa(ps.Slot), ps.BlockRoot, ps.Metrics)
} else if previousSlot > int(ps.FullBeaconState.Slot()) {
log.WithFields(log.Fields{
"previousSlot": previousSlot,
"curSlot": int(ps.FullBeaconState.Slot()),
}).Warn("We noticed the previous slot is greater than the current slot.")
} else if previousSlot+1 != int(ps.FullBeaconState.Slot()) {
log.WithFields(log.Fields{
"previousSlot": previousSlot,
"currentSlot": ps.FullBeaconState.Slot(),
}).Error("We skipped a few slots.")
writeKnownGaps(ps.Db, knownGapsTableIncrement, previousSlot+1, int(ps.FullBeaconState.Slot())-1, fmt.Errorf("Gaps during head processing"), "headGaps", ps.Metrics)
} else if previousBlockRoot != parentRoot {
log.WithFields(log.Fields{
"previousBlockRoot": previousBlockRoot,
"currentBlockParent": parentRoot,
}).Error("The previousBlockRoot does not match the current blocks parent, an unprocessed fork might have occurred.")
writeReorgs(ps.Db, strconv.Itoa(previousSlot), parentRoot, ps.Metrics)
} else {
log.Debug("Previous Slot and Current Slot are one distance from each other.")
}
}
// Transforms all the raw data into DB models that can be written to the DB.
func (ps *ProcessSlot) createWriteObjects() (*DatabaseWriter, error) {
var (
stateRoot string
blockRoot string
status string
eth1BlockHash string
)
if ps.Status == "skipped" {
stateRoot = ""
blockRoot = ""
eth1BlockHash = ""
} else {
if ps.StateRoot != "" {
stateRoot = ps.StateRoot
} else {
stateRoot = "0x" + hex.EncodeToString(ps.FullSignedBeaconBlock.Block().StateRoot())
log.Debug("StateRoot: ", stateRoot)
}
if ps.BlockRoot != "" {
blockRoot = ps.BlockRoot
} else {
var err error
rawBlockRoot, err := ps.FullSignedBeaconBlock.Block().HashTreeRoot()
//blockRoot, err = queryBlockRoot(blockRootEndpoint, strconv.Itoa(ps.Slot))
if err != nil {
return nil, err
}
blockRoot = "0x" + hex.EncodeToString(rawBlockRoot[:])
log.WithFields(log.Fields{"blockRoot": blockRoot}).Debug("Block Root from ssz:")
}
eth1BlockHash = "0x" + hex.EncodeToString(ps.FullSignedBeaconBlock.Block().Body().Eth1Data().BlockHash)
}
if ps.Status != "" {
status = ps.Status
} else {
status = "proposed"
}
dw, err := CreateDatabaseWrite(ps.Db, ps.Slot, stateRoot, blockRoot, ps.ParentBlockRoot, eth1BlockHash, status, ps.SszSignedBeaconBlock, ps.SszBeaconState, ps.Metrics)
if err != nil {
return dw, err
}
return dw, nil
}