package main import ( "encoding/binary" "fmt" "io" "math/big" "os" eth_common "github.com/ethereum/go-ethereum/common" eth_core "github.com/ethereum/go-ethereum/core" eth_state "github.com/ethereum/go-ethereum/core/state" eth_types "github.com/ethereum/go-ethereum/core/types" eth_vm "github.com/ethereum/go-ethereum/core/vm" eth_rlp "github.com/ethereum/go-ethereum/rlp" eth_ethdb "github.com/ethereum/go-ethereum/ethdb" eth_params "github.com/ethereum/go-ethereum/params" eth_rpc "github.com/ethereum/go-ethereum/rpc" eth_trie "github.com/ethereum/go-ethereum/trie" eth_consensus "github.com/ethereum/go-ethereum/consensus" eth_misc "github.com/ethereum/go-ethereum/consensus/misc" dbm "github.com/tendermint/tmlibs/db" "github.com/cosmos/cosmos-sdk/store" "github.com/cosmos/cosmos-sdk/types" ) var ( // Key for the sub-store with Ethereum accounts AccountsKey = types.NewKVStoreKey("account") // Key for the sub-store with storage data of Ethereum contracts StorageKey = types.NewKVStoreKey("storage") // Key for the sub-store with the code for contracts CodeKey = types.NewKVStoreKey("code") ) type CommitHashPreimage struct { VersionId int64 Prefix []byte } var miner501 = eth_common.HexToAddress("0x35e8e5dC5FBd97c5b421A80B596C030a2Be2A04D") // Implementation of eth_state.Database type OurDatabase struct { stateStore store.CommitMultiStore // For the history of accounts // Also, for the history of contract data (effects of SSTORE instruction) accountsCache store.CacheKVStore storageCache store.CacheKVStore codeDb dbm.DB // Mapping [codeHash] -> tracing bool trieDbDummy *eth_trie.Database } func OurNewDatabase(stateDb, codeDb dbm.DB) (*OurDatabase, error) { od := &OurDatabase{} od.stateStore = store.NewCommitMultiStore(stateDb) od.stateStore.MountStoreWithDB(AccountsKey, types.StoreTypeIAVL, nil) od.stateStore.MountStoreWithDB(StorageKey, types.StoreTypeIAVL, nil) if err := od.stateStore.LoadLatestVersion(); err != nil { return nil, err } od.codeDb = codeDb od.trieDbDummy = eth_trie.NewDatabase(nil) return od, nil } // root is not interpreted as a hash, but as an encoding of version func (od *OurDatabase) OpenTrie(root eth_common.Hash) (eth_state.Trie, error) { // Look up version id to use hasData := root != (eth_common.Hash{}) var versionId int64 if hasData { // First 8 bytes encode version versionId = int64(binary.BigEndian.Uint64(root[:8])) if od.stateStore.LastCommitID().Version != versionId { if err := od.stateStore.LoadVersion(versionId); err != nil { return nil, err } od.accountsCache = nil } } if od.accountsCache == nil { od.accountsCache = store.NewCacheKVStore(od.stateStore.GetCommitKVStore(AccountsKey)) } return &OurTrie{od: od, versionId: versionId, st: od.accountsCache, prefix: nil, hasData: hasData}, nil } func (od *OurDatabase) OpenStorageTrie(addrHash, root eth_common.Hash) (eth_state.Trie, error) { hasData := root != (eth_common.Hash{}) var versionId int64 if hasData { // First 8 bytes encode version versionId = int64(binary.BigEndian.Uint64(root[:8])) if od.stateStore.LastCommitID().Version != versionId { if err := od.stateStore.LoadVersion(versionId); err != nil { return nil, err } od.storageCache = nil } } if od.storageCache == nil { od.storageCache = store.NewCacheKVStore(od.stateStore.GetCommitKVStore(StorageKey)) } return &OurTrie{od:od, versionId: versionId, st: od.storageCache, prefix: addrHash[:], hasData: hasData}, nil } func (od *OurDatabase) CopyTrie(eth_state.Trie) eth_state.Trie { return nil } func (od *OurDatabase) ContractCode(addrHash, codeHash eth_common.Hash) ([]byte, error) { code := od.codeDb.Get(codeHash[:]) return code, nil } func (od *OurDatabase) ContractCodeSize(addrHash, codeHash eth_common.Hash) (int, error) { code := od.codeDb.Get(codeHash[:]) return len(code), nil } func (od *OurDatabase) TrieDB() *eth_trie.Database { return od.trieDbDummy } // Implementation of eth_state.Trie type OurTrie struct { od *OurDatabase versionId int64 // This is essentially part of the KVStore for a specific prefix st store.KVStore prefix []byte hasData bool } func (ot *OurTrie) makePrefix(key []byte) []byte { kk := make([]byte, len(ot.prefix)+len(key)) copy(kk, ot.prefix) copy(kk[len(ot.prefix):], key) return kk } func (ot *OurTrie) TryGet(key []byte) ([]byte, error) { if ot.prefix == nil { return ot.st.Get(key), nil } return ot.st.Get(ot.makePrefix(key)), nil } func (ot *OurTrie) TryUpdate(key, value []byte) error { ot.hasData = true if ot.prefix == nil { ot.st.Set(key, value) return nil } ot.st.Set(ot.makePrefix(key), value) return nil } func (ot *OurTrie) TryDelete(key []byte) error { if ot.prefix == nil { ot.st.Delete(key) return nil } ot.st.Delete(ot.makePrefix(key)) return nil } func (ot *OurTrie) Commit(onleaf eth_trie.LeafCallback) (eth_common.Hash, error) { if !ot.hasData { return eth_common.Hash{}, nil } var commitHash eth_common.Hash // We assume here that the next committed version will be ot.versionId+1 binary.BigEndian.PutUint64(commitHash[:8], uint64(ot.versionId+1)) if ot.prefix == nil { if ot.od.accountsCache != nil { ot.od.accountsCache.Write() ot.od.accountsCache = nil } if ot.od.storageCache != nil { ot.od.storageCache.Write() ot.od.storageCache = nil } } return commitHash, nil } func (ot *OurTrie) Hash() eth_common.Hash { return eth_common.Hash{} } func (ot *OurTrie) NodeIterator(startKey []byte) eth_trie.NodeIterator { return nil } func (ot *OurTrie) GetKey([]byte) []byte { return nil } func (ot *OurTrie) Prove(key []byte, fromLevel uint, proofDb eth_ethdb.Putter) error { return nil } type OurChainContext struct { } func (occ *OurChainContext) Engine() eth_consensus.Engine { return &OurEngine{} } func (occ *OurChainContext) GetHeader(eth_common.Hash, uint64) *eth_types.Header { return nil } type OurEngine struct { } func (oe *OurEngine) Author(header *eth_types.Header) (eth_common.Address, error) { return eth_common.Address{}, nil } func (oe *OurEngine) APIs(chain eth_consensus.ChainReader) []eth_rpc.API { return nil } func (oe *OurEngine) CalcDifficulty(chain eth_consensus.ChainReader, time uint64, parent *eth_types.Header) *big.Int { return nil } func (oe *OurEngine) Finalize(chain eth_consensus.ChainReader, header *eth_types.Header, state *eth_state.StateDB, txs []*eth_types.Transaction, uncles []*eth_types.Header, receipts []*eth_types.Receipt) (*eth_types.Block, error) { return nil, nil } func (oe *OurEngine) Prepare(chain eth_consensus.ChainReader, header *eth_types.Header) error { return nil } func (oe *OurEngine) Seal(chain eth_consensus.ChainReader, block *eth_types.Block, stop <-chan struct{}) (*eth_types.Block, error) { return nil, nil } func (oe *OurEngine) VerifyHeader(chain eth_consensus.ChainReader, header *eth_types.Header, seal bool) error { return nil } func (oe *OurEngine) VerifyHeaders(chain eth_consensus.ChainReader, headers []*eth_types.Header, seals []bool) (chan<- struct{}, <-chan error) { return nil, nil } func (oe *OurEngine) VerifySeal(chain eth_consensus.ChainReader, header *eth_types.Header) error { return nil } func (oe *OurEngine) VerifyUncles(chain eth_consensus.ChainReader, block *eth_types.Block) error { return nil } func main() { fmt.Printf("Instantiating state.Database\n") stateDb := dbm.NewDB("state" /* name */, dbm.MemDBBackend, "" /* dir */) codeDb := dbm.NewDB("code" /* name */, dbm.MemDBBackend, "" /* dir */) d, err := OurNewDatabase(stateDb, codeDb) if err != nil { panic(err) } fmt.Printf("Instantiating state.StateDB\n") // With empty root hash, i.e. empty state statedb, err := eth_state.New(eth_common.Hash{}, d) if err != nil { panic(err) } g := eth_core.DefaultGenesisBlock() for addr, account := range g.Alloc { statedb.AddBalance(addr, account.Balance) statedb.SetCode(addr, account.Code) statedb.SetNonce(addr, account.Nonce) for key, value := range account.Storage { statedb.SetState(addr, key, value) } } // One of the genesis account having 200 ETH b := statedb.GetBalance(eth_common.HexToAddress("0x756F45E3FA69347A9A973A725E3C98bC4db0b5a0")) fmt.Printf("Balance: %s\n", b) genesis_root, err := statedb.Commit(false /* deleteEmptyObjects */) if err != nil { panic(err) } commitID := d.stateStore.Commit() fmt.Printf("CommitID after genesis: %v\n", commitID) fmt.Printf("Genesis state root hash: %x\n", genesis_root[:]) // File with blockchain data exported from geth by using "geth expordb" command input, err := os.Open("/Users/alexeyakhunov/mygit/blockchain") if err != nil { panic(err) } defer input.Close() // Ethereum mainnet config chainConfig := eth_params.MainnetChainConfig stream := eth_rlp.NewStream(input, 0) var block eth_types.Block n := 0 var root500 eth_common.Hash // Root hash after block 500 var root501 eth_common.Hash // Root hash after block 501 prev_root := genesis_root d.tracing = true for { if err = stream.Decode(&block); err == io.EOF { err = nil // Clear it break } else if err != nil { panic(fmt.Errorf("at block %d: %v", n, err)) } // don't import first block if block.NumberU64() == 0 { continue } header := block.Header() statedb, err := eth_state.New(prev_root, d) if err != nil { panic(fmt.Errorf("at block %d: %v", n, err)) } var ( receipts eth_types.Receipts usedGas = new(uint64) allLogs []*eth_types.Log gp = new(eth_core.GasPool).AddGas(block.GasLimit()) ) if chainConfig.DAOForkSupport && chainConfig.DAOForkBlock != nil && chainConfig.DAOForkBlock.Cmp(block.Number()) == 0 { eth_misc.ApplyDAOHardFork(statedb) } for i, tx := range block.Transactions() { statedb.Prepare(tx.Hash(), block.Hash(), i) receipt, _, err := eth_core.ApplyTransaction(chainConfig, &OurChainContext{}, nil, gp, statedb, header, tx, usedGas, eth_vm.Config{}) if err != nil { panic(fmt.Errorf("at block %d, tx %x: %v", n, tx.Hash(), err)) } receipts = append(receipts, receipt) allLogs = append(allLogs, receipt.Logs...) } // Apply mining rewards to the statedb accumulateRewards(chainConfig, statedb, header, block.Uncles()) // Commit block prev_root, err = statedb.Commit(chainConfig.IsEIP158(block.Number()) /* deleteEmptyObjects */) if err != nil { panic(fmt.Errorf("at block %d: %v", n, err)) } //fmt.Printf("State root after block %d: %x\n", block.NumberU64(), prev_root) d.stateStore.Commit() //fmt.Printf("CommitID after block %d: %v\n", block.NumberU64(), commitID) switch block.NumberU64() { case 500: root500 = prev_root case 501: root501 = prev_root } n++ if n % 10000 == 0 { fmt.Printf("Processed %d blocks\n", n) } if n >= 100000 { break } } fmt.Printf("Processed %d blocks\n", n) d.tracing = true genesis_state, err := eth_state.New(genesis_root, d) fmt.Printf("Balance of one of the genesis investors: %s\n", genesis_state.GetBalance(eth_common.HexToAddress("0x756F45E3FA69347A9A973A725E3C98bC4db0b5a0"))) //miner501 := eth_common.HexToAddress("0x35e8e5dC5FBd97c5b421A80B596C030a2Be2A04D") // Miner of the block 501 // Try to create a new statedb from root of the block 500 fmt.Printf("root500: %x\n", root500[:]) state500, err := eth_state.New(root500, d) if err != nil { panic(err) } miner501_balance_at_500 := state500.GetBalance(miner501) state501, err := eth_state.New(root501, d) if err != nil { panic(err) } miner501_balance_at_501 := state501.GetBalance(miner501) fmt.Printf("Investor's balance after block 500: %d\n", state500.GetBalance(eth_common.HexToAddress("0x756F45E3FA69347A9A973A725E3C98bC4db0b5a0"))) fmt.Printf("Miner of block 501's balance after block 500: %d\n", miner501_balance_at_500) fmt.Printf("Miner of block 501's balance after block 501: %d\n", miner501_balance_at_501) }