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237 lines
9.4 KiB
237 lines
9.4 KiB
// Copyright 2015 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package core
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import (
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"bytes"
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"encoding/binary"
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"fmt"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/harmony-one/harmony/block"
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"github.com/harmony-one/harmony/internal/ctxerror"
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consensus_engine "github.com/harmony-one/harmony/consensus/engine"
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"github.com/harmony-one/harmony/core/state"
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"github.com/harmony-one/harmony/core/types"
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"github.com/harmony-one/harmony/internal/params"
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)
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// BlockValidator is responsible for validating block headers, uncles and
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// processed state.
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//
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// BlockValidator implements Validator.
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type BlockValidator struct {
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config *params.ChainConfig // Chain configuration options
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bc *BlockChain // Canonical block chain
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engine consensus_engine.Engine // Consensus engine used for validating
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}
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// NewBlockValidator returns a new block validator which is safe for re-use
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func NewBlockValidator(config *params.ChainConfig, blockchain *BlockChain, engine consensus_engine.Engine) *BlockValidator {
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validator := &BlockValidator{
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config: config,
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engine: engine,
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bc: blockchain,
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}
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return validator
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}
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// ValidateBody verifies the block header's transaction root.
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// The headers are assumed to be already validated at this point.
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func (v *BlockValidator) ValidateBody(block *types.Block) error {
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// Check whether the block's known, and if not, that it's linkable
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if v.bc.HasBlockAndState(block.Hash(), block.NumberU64()) {
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return ErrKnownBlock
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}
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if !v.bc.HasBlockAndState(block.ParentHash(), block.NumberU64()-1) {
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if !v.bc.HasBlock(block.ParentHash(), block.NumberU64()-1) {
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return consensus_engine.ErrUnknownAncestor
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}
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return consensus_engine.ErrPrunedAncestor
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}
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// Header validity is known at this point, check the uncles and transactions
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header := block.Header()
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//if err := v.engine.VerifyUncles(v.bc, block); err != nil {
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// return err
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//}
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if hash := types.DeriveSha(
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block.Transactions(),
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block.StakingTransactions(),
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); hash != header.TxHash() {
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return fmt.Errorf("transaction root hash mismatch: have %x, want %x", hash, header.TxHash())
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}
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return nil
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}
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// ValidateState validates the various changes that happen after a state
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// transition, such as amount of used gas, the receipt roots and the state root
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// itself. ValidateState returns a database batch if the validation was a success
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// otherwise nil and an error is returned.
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func (v *BlockValidator) ValidateState(block, parent *types.Block, statedb *state.DB, receipts types.Receipts, cxReceipts types.CXReceipts, usedGas uint64) error {
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header := block.Header()
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if block.GasUsed() != usedGas {
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return fmt.Errorf("invalid gas used (remote: %d local: %d)", block.GasUsed(), usedGas)
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}
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// Validate the received block's bloom with the one derived from the generated receipts.
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// For valid blocks this should always validate to true.
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rbloom := types.CreateBloom(receipts)
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if rbloom != header.Bloom() {
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return fmt.Errorf("invalid bloom (remote: %x local: %x)", header.Bloom(), rbloom)
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}
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// Tre receipt Trie's root (R = (Tr [[H1, R1], ... [Hn, R1]]))
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receiptSha := types.DeriveSha(receipts)
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if receiptSha != header.ReceiptHash() {
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return fmt.Errorf("invalid receipt root hash (remote: %x local: %x)", header.ReceiptHash(), receiptSha)
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}
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if v.config.AcceptsCrossTx(block.Epoch()) {
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cxsSha := cxReceipts.ComputeMerkleRoot()
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if cxsSha != header.OutgoingReceiptHash() {
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legacySha := types.DeriveMultipleShardsSha(cxReceipts)
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if legacySha != header.OutgoingReceiptHash() {
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return fmt.Errorf("invalid cross shard receipt root hash (remote: %x local: %x, legacy: %x)", header.OutgoingReceiptHash(), cxsSha, legacySha)
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}
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}
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}
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// Validate the state root against the received state root and throw
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// an error if they don't match.
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if root := statedb.IntermediateRoot(v.config.IsS3(header.Epoch())); header.Root() != root {
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return fmt.Errorf("invalid merkle root (remote: %x local: %x)", header.Root(), root)
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}
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return nil
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}
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// ValidateHeader checks whether a header conforms to the consensus rules of a
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// given engine. Verifying the seal may be done optionally here, or explicitly
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// via the VerifySeal method.
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func (v *BlockValidator) ValidateHeader(block *types.Block, seal bool) error {
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return v.engine.VerifyHeader(v.bc, block.Header(), true)
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}
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// ValidateHeaders verifies a batch of blocks' headers concurrently. The method returns a quit channel
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// to abort the operations and a results channel to retrieve the async verifications
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func (v *BlockValidator) ValidateHeaders(chain []*types.Block) (chan<- struct{}, <-chan error) {
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// Start the parallel header verifier
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headers := make([]*block.Header, len(chain))
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seals := make([]bool, len(chain))
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for i, block := range chain {
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headers[i] = block.Header()
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seals[i] = true
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}
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return v.engine.VerifyHeaders(v.bc, headers, seals)
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}
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// CalcGasLimit computes the gas limit of the next block after parent. It aims
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// to keep the baseline gas above the provided floor, and increase it towards the
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// ceil if the blocks are full. If the ceil is exceeded, it will always decrease
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// the gas allowance.
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func CalcGasLimit(parent *types.Block, gasFloor, gasCeil uint64) uint64 {
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// contrib = (parentGasUsed * 3 / 2) / 1024
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contrib := (parent.GasUsed() + parent.GasUsed()/2) / params.GasLimitBoundDivisor
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// decay = parentGasLimit / 1024 -1
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decay := parent.GasLimit()/params.GasLimitBoundDivisor - 1
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/*
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strategy: gasLimit of block-to-mine is set based on parent's
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gasUsed value. if parentGasUsed > parentGasLimit * (2/3) then we
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increase it, otherwise lower it (or leave it unchanged if it's right
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at that usage) the amount increased/decreased depends on how far away
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from parentGasLimit * (2/3) parentGasUsed is.
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*/
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limit := parent.GasLimit() - decay + contrib
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if limit < params.MinGasLimit {
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limit = params.MinGasLimit
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}
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// If we're outside our allowed gas range, we try to hone towards them
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if limit < gasFloor {
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limit = parent.GasLimit() + decay
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if limit > gasFloor {
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limit = gasFloor
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}
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} else if limit > gasCeil {
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limit = parent.GasLimit() - decay
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if limit < gasCeil {
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limit = gasCeil
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}
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}
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return limit
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}
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// ValidateCXReceiptsProof checks whether the given CXReceiptsProof is consistency with itself
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func (v *BlockValidator) ValidateCXReceiptsProof(cxp *types.CXReceiptsProof) error {
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if !v.config.AcceptsCrossTx(cxp.Header.Epoch()) {
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return ctxerror.New("[ValidateCXReceiptsProof] cross shard receipt received before cx fork")
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}
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toShardID, err := cxp.GetToShardID()
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if err != nil {
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return ctxerror.New("[ValidateCXReceiptsProof] invalid shardID").WithCause(err)
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}
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merkleProof := cxp.MerkleProof
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shardRoot := common.Hash{}
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foundMatchingShardID := false
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byteBuffer := bytes.Buffer{}
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// prepare to calculate source shard outgoing cxreceipts root hash
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for j := 0; j < len(merkleProof.ShardIDs); j++ {
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sKey := make([]byte, 4)
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binary.BigEndian.PutUint32(sKey, merkleProof.ShardIDs[j])
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byteBuffer.Write(sKey)
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byteBuffer.Write(merkleProof.CXShardHashes[j][:])
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if merkleProof.ShardIDs[j] == toShardID {
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shardRoot = merkleProof.CXShardHashes[j]
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foundMatchingShardID = true
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}
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}
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if !foundMatchingShardID {
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return ctxerror.New("[ValidateCXReceiptsProof] Didn't find matching toShardID (no receipts for my shard)")
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}
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sourceShardID := merkleProof.ShardID
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sourceBlockNum := merkleProof.BlockNum
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sha := types.DeriveSha(cxp.Receipts)
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// (1) verify the CXReceipts trie root match
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if sha != shardRoot {
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return ctxerror.New("[ValidateCXReceiptsProof] Trie Root of ReadCXReceipts Not Match", "sourceShardID", sourceShardID, "sourceBlockNum", sourceBlockNum, "calculated", sha, "got", shardRoot)
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}
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// (2) verify the outgoingCXReceiptsHash match
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outgoingHashFromSourceShard := crypto.Keccak256Hash(byteBuffer.Bytes())
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if byteBuffer.Len() == 0 {
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outgoingHashFromSourceShard = types.EmptyRootHash
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}
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if outgoingHashFromSourceShard != merkleProof.CXReceiptHash {
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return ctxerror.New("[ValidateCXReceiptsProof] IncomingReceiptRootHash from source shard not match", "sourceShardID", sourceShardID, "sourceBlockNum", sourceBlockNum, "calculated", outgoingHashFromSourceShard, "got", merkleProof.CXReceiptHash)
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}
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// (3) verify the block hash matches
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if cxp.Header.Hash() != merkleProof.BlockHash || cxp.Header.OutgoingReceiptHash() != merkleProof.CXReceiptHash {
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return ctxerror.New("[ValidateCXReceiptsProof] BlockHash or OutgoingReceiptHash not match in block Header", "blockHash", cxp.Header.Hash(), "merkleProofBlockHash", merkleProof.BlockHash, "headerOutReceiptHash", cxp.Header.OutgoingReceiptHash(), "merkleOutReceiptHash", merkleProof.CXReceiptHash)
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}
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// (4) verify blockHeader with seal
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return v.engine.VerifyHeaderWithSignature(v.bc, cxp.Header, cxp.CommitSig, cxp.CommitBitmap, true)
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}
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