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426 lines
13 KiB
426 lines
13 KiB
package v0
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import (
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"io"
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"math/big"
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"unsafe"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/hexutil"
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ethtypes "github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/rs/zerolog"
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"github.com/harmony-one/harmony/crypto/hash"
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"github.com/harmony-one/harmony/internal/utils"
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"github.com/harmony-one/harmony/shard"
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)
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// Header is the V1 block header.
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type Header struct {
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fields headerFields
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}
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// EncodeRLP encodes the header fields into RLP format.
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func (h *Header) EncodeRLP(w io.Writer) error {
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return rlp.Encode(w, &h.fields)
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}
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// DecodeRLP decodes the given RLP decode stream into the header fields.
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func (h *Header) DecodeRLP(s *rlp.Stream) error {
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return s.Decode(&h.fields)
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}
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// NewHeader creates a new header object.
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func NewHeader() *Header {
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return &Header{headerFields{
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Number: new(big.Int),
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Time: new(big.Int),
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ViewID: new(big.Int),
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Epoch: new(big.Int),
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}}
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}
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type headerFields struct {
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ParentHash common.Hash `json:"parentHash" gencodec:"required"`
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Coinbase common.Address `json:"miner" gencodec:"required"`
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Root common.Hash `json:"stateRoot" gencodec:"required"`
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TxHash common.Hash `json:"transactionsRoot" gencodec:"required"`
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ReceiptHash common.Hash `json:"receiptsRoot" gencodec:"required"`
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Bloom ethtypes.Bloom `json:"logsBloom" gencodec:"required"`
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Number *big.Int `json:"number" gencodec:"required"`
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GasLimit uint64 `json:"gasLimit" gencodec:"required"`
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GasUsed uint64 `json:"gasUsed" gencodec:"required"`
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Time *big.Int `json:"timestamp" gencodec:"required"`
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Extra []byte `json:"extraData" gencodec:"required"`
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MixDigest common.Hash `json:"mixHash" gencodec:"required"`
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// Additional Fields
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ViewID *big.Int `json:"viewID" gencodec:"required"`
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Epoch *big.Int `json:"epoch" gencodec:"required"`
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ShardID uint32 `json:"shardID" gencodec:"required"`
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LastCommitSignature [96]byte `json:"lastCommitSignature" gencodec:"required"`
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LastCommitBitmap []byte `json:"lastCommitBitmap" gencodec:"required"` // Contains which validator signed
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ShardStateHash common.Hash `json:"shardStateRoot"`
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ShardState []byte `json:"shardState"`
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}
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// ParentHash is the header hash of the parent block. For the genesis block
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// which has no parent by definition, this field is zeroed out.
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func (h *Header) ParentHash() common.Hash {
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return h.fields.ParentHash
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}
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// SetParentHash sets the parent hash field.
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func (h *Header) SetParentHash(newParentHash common.Hash) {
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h.fields.ParentHash = newParentHash
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}
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// Coinbase is the address of the node that proposed this block and all
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// transactions in it.
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func (h *Header) Coinbase() common.Address {
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return h.fields.Coinbase
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}
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// SetCoinbase sets the coinbase address field.
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func (h *Header) SetCoinbase(newCoinbase common.Address) {
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h.fields.Coinbase = newCoinbase
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}
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// Root is the state (account) trie root hash.
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func (h *Header) Root() common.Hash {
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return h.fields.Root
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}
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// SetRoot sets the state trie root hash field.
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func (h *Header) SetRoot(newRoot common.Hash) {
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h.fields.Root = newRoot
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}
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// TxHash is the transaction trie root hash.
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func (h *Header) TxHash() common.Hash {
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return h.fields.TxHash
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}
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// SetTxHash sets the transaction trie root hash field.
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func (h *Header) SetTxHash(newTxHash common.Hash) {
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h.fields.TxHash = newTxHash
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}
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// ReceiptHash is the same-shard transaction receipt trie hash.
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func (h *Header) ReceiptHash() common.Hash {
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return h.fields.ReceiptHash
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}
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// SetReceiptHash sets the same-shard transaction receipt trie hash.
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func (h *Header) SetReceiptHash(newReceiptHash common.Hash) {
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h.fields.ReceiptHash = newReceiptHash
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}
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// OutgoingReceiptHash is the egress transaction receipt trie hash.
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func (h *Header) OutgoingReceiptHash() common.Hash {
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return ethtypes.EmptyRootHash
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}
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// SetOutgoingReceiptHash sets the egress transaction receipt trie hash.
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func (h *Header) SetOutgoingReceiptHash(newOutgoingReceiptHash common.Hash) {
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if newOutgoingReceiptHash != ethtypes.EmptyRootHash {
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h.Logger(utils.Logger()).Warn().
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Hex("outgoingReceiptHash", newOutgoingReceiptHash[:]).
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Msg("non-empty outgoing receipt root hash provided but cannot be stored")
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}
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}
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// IncomingReceiptHash is the ingress transaction receipt trie hash.
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func (h *Header) IncomingReceiptHash() common.Hash {
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return ethtypes.EmptyRootHash
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}
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// SetIncomingReceiptHash sets the ingress transaction receipt trie hash.
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func (h *Header) SetIncomingReceiptHash(newIncomingReceiptHash common.Hash) {
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if newIncomingReceiptHash != ethtypes.EmptyRootHash {
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h.Logger(utils.Logger()).Warn().
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Hex("incomingReceiptHash", newIncomingReceiptHash[:]).
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Msg("non-empty outgoing receipt root hash provided but cannot be stored")
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}
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}
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// Bloom is the Bloom filter that indexes accounts and topics logged by smart
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// contract transactions (executions) in this block.
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func (h *Header) Bloom() ethtypes.Bloom {
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return h.fields.Bloom
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}
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// SetBloom sets the smart contract log Bloom filter for this block.
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func (h *Header) SetBloom(newBloom ethtypes.Bloom) {
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h.fields.Bloom = newBloom
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}
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// Number is the block number.
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//
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// The returned instance is a copy; the caller may do anything with it.
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func (h *Header) Number() *big.Int {
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return new(big.Int).Set(h.fields.Number)
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}
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// SetNumber sets the block number.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetNumber(newNumber *big.Int) {
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h.fields.Number = new(big.Int).Set(newNumber)
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}
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// GasLimit is the gas limit for transactions in this block.
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func (h *Header) GasLimit() uint64 {
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return h.fields.GasLimit
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}
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// SetGasLimit sets the gas limit for transactions in this block.
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func (h *Header) SetGasLimit(newGasLimit uint64) {
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h.fields.GasLimit = newGasLimit
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}
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// GasUsed is the amount of gas used by transactions in this block.
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func (h *Header) GasUsed() uint64 {
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return h.fields.GasUsed
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}
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// SetGasUsed sets the amount of gas used by transactions in this block.
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func (h *Header) SetGasUsed(newGasUsed uint64) {
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h.fields.GasUsed = newGasUsed
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}
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// Time is the UNIX timestamp of this block.
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//
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// The returned instance is a copy; the caller may do anything with it.
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func (h *Header) Time() *big.Int {
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return new(big.Int).Set(h.fields.Time)
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}
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// SetTime sets the UNIX timestamp of this block.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetTime(newTime *big.Int) {
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h.fields.Time = new(big.Int).Set(newTime)
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}
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// Extra is the extra data field of this block.
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//
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// The returned slice is a copy; the caller may do anything with it.
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func (h *Header) Extra() []byte {
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return append(h.fields.Extra[:0:0], h.fields.Extra...)
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}
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// SetExtra sets the extra data field of this block.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetExtra(newExtra []byte) {
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h.fields.Extra = append(newExtra[:0:0], newExtra...)
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}
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// MixDigest is the mixhash.
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//
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// This field is a remnant from Ethereum, and Harmony does not use it and always
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// zeroes it out.
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func (h *Header) MixDigest() common.Hash {
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return h.fields.MixDigest
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}
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// SetMixDigest sets the mixhash of this block.
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func (h *Header) SetMixDigest(newMixDigest common.Hash) {
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h.fields.MixDigest = newMixDigest
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}
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// ViewID is the ID of the view in which this block was originally proposed.
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//
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// It normally increases by one for each subsequent block, or by more than one
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// if one or more PBFT/FBFT view changes have occurred.
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//
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// The returned instance is a copy; the caller may do anything with it.
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func (h *Header) ViewID() *big.Int {
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return new(big.Int).Set(h.fields.ViewID)
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}
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// SetViewID sets the view ID in which the block was originally proposed.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetViewID(newViewID *big.Int) {
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h.fields.ViewID = new(big.Int).Set(newViewID)
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}
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// Epoch is the epoch number of this block.
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//
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// The returned instance is a copy; the caller may do anything with it.
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func (h *Header) Epoch() *big.Int {
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return new(big.Int).Set(h.fields.Epoch)
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}
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// SetEpoch sets the epoch number of this block.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetEpoch(newEpoch *big.Int) {
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h.fields.Epoch = new(big.Int).Set(newEpoch)
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}
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// ShardID is the shard ID to which this block belongs.
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func (h *Header) ShardID() uint32 {
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return h.fields.ShardID
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}
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// SetShardID sets the shard ID to which this block belongs.
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func (h *Header) SetShardID(newShardID uint32) {
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h.fields.ShardID = newShardID
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}
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// LastCommitSignature is the FBFT commit group signature for the last block.
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func (h *Header) LastCommitSignature() [96]byte {
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return h.fields.LastCommitSignature
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}
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// SetLastCommitSignature sets the FBFT commit group signature for the last
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// block.
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func (h *Header) SetLastCommitSignature(newLastCommitSignature [96]byte) {
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h.fields.LastCommitSignature = newLastCommitSignature
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}
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// LastCommitBitmap is the signatory bitmap of the previous block. Bit
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// positions index into committee member array.
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//
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// The returned slice is a copy; the caller may do anything with it.
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func (h *Header) LastCommitBitmap() []byte {
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return append(h.fields.LastCommitBitmap[:0:0], h.fields.LastCommitBitmap...)
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}
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// SetLastCommitBitmap sets the signatory bitmap of the previous block.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetLastCommitBitmap(newLastCommitBitmap []byte) {
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h.fields.LastCommitBitmap = append(newLastCommitBitmap[:0:0], newLastCommitBitmap...)
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}
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// ShardStateHash is the shard state hash.
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func (h *Header) ShardStateHash() common.Hash {
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return h.fields.ShardStateHash
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}
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// SetShardStateHash sets the shard state hash.
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func (h *Header) SetShardStateHash(newShardStateHash common.Hash) {
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h.fields.ShardStateHash = newShardStateHash
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}
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// Vrf is the output of the VRF for the epoch.
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//
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// The returned slice is a copy; the caller may do anything with it.
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func (h *Header) Vrf() []byte {
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return nil
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}
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// SetVrf sets the output of the VRF for the epoch.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetVrf(newVrf []byte) {
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if len(newVrf) > 0 {
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h.Logger(utils.Logger()).Warn().
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Hex("vrf", newVrf).
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Msg("non-empty VRF provided but cannot be stored")
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}
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}
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// Vdf is the output of the VDF for the epoch.
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//
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// The returned slice is a copy; the caller may do anything with it.
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func (h *Header) Vdf() []byte {
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return nil
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}
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// SetVdf sets the output of the VDF for the epoch.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetVdf(newVdf []byte) {
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if len(newVdf) > 0 {
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h.Logger(utils.Logger()).Warn().
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Hex("vdf", newVdf).
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Msg("non-empty VDF provided but cannot be stored")
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}
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}
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// ShardState is the RLP-encoded form of shard state (list of committees) for
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// the next epoch.
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//
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// The returned slice is a copy; the caller may do anything with it.
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func (h *Header) ShardState() []byte {
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return append(h.fields.ShardState[:0:0], h.fields.ShardState...)
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}
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// SetShardState sets the RLP-encoded form of shard state
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetShardState(newShardState []byte) {
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h.fields.ShardState = append(newShardState[:0:0], newShardState...)
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}
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// CrossLinks is the RLP-encoded form of non-beacon block headers chosen to be
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// canonical by the beacon committee. This field is present only on beacon
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// chain block headers.
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//
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// The returned slice is a copy; the caller may do anything with it.
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func (h *Header) CrossLinks() []byte {
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return nil
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}
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// SetCrossLinks sets the RLP-encoded form of non-beacon block headers chosen to
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// be canonical by the beacon committee.
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//
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// It stores a copy; the caller may freely modify the original.
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func (h *Header) SetCrossLinks(newCrossLinks []byte) {
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if len(newCrossLinks) > 0 {
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h.Logger(utils.Logger()).Warn().
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Hex("crossLinks", newCrossLinks).
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Msg("non-empty cross-chain links provided but cannot be stored")
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}
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}
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// field type overrides for gencodec
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type headerMarshaling struct {
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Difficulty *hexutil.Big
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Number *hexutil.Big
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GasLimit hexutil.Uint64
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GasUsed hexutil.Uint64
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Time *hexutil.Big
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Extra hexutil.Bytes
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Hash common.Hash `json:"hash"` // adds call to Hash() in MarshalJSON
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}
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// Hash returns the block hash of the header, which is simply the keccak256 hash of its
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// RLP encoding.
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func (h *Header) Hash() common.Hash {
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return hash.FromRLP(h)
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}
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// Size returns the approximate memory used by all internal contents. It is used
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// to approximate and limit the memory consumption of various caches.
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func (h *Header) Size() common.StorageSize {
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// TODO: update with new fields
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return common.StorageSize(unsafe.Sizeof(*h)) + common.StorageSize(len(h.Extra())+(h.Number().BitLen()+h.Time().BitLen())/8)
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}
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// Logger returns a sub-logger with block contexts added.
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func (h *Header) Logger(logger *zerolog.Logger) *zerolog.Logger {
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nlogger := logger.
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With().
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Str("blockHash", h.Hash().Hex()).
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Uint32("blockShard", h.ShardID()).
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Uint64("blockEpoch", h.Epoch().Uint64()).
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Uint64("blockNumber", h.Number().Uint64()).
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Logger()
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return &nlogger
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}
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// GetShardState returns the deserialized shard state object.
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func (h *Header) GetShardState() (shard.State, error) {
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shardState := shard.State{}
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err := rlp.DecodeBytes(h.ShardState(), &shardState)
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if err != nil {
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return nil, err
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}
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return shardState, nil
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}
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