26c5eabb18
* add additional linters * fixes * rm action
443 lines
14 KiB
Go
443 lines
14 KiB
Go
package keeper
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import (
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"bytes"
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"math/big"
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"github.com/cosmos/cosmos-sdk/codec"
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"github.com/cosmos/cosmos-sdk/store/prefix"
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sdk "github.com/cosmos/cosmos-sdk/types"
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paramtypes "github.com/cosmos/cosmos-sdk/x/params/types"
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"github.com/ethereum/go-ethereum/common"
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ethtypes "github.com/ethereum/go-ethereum/core/types"
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"github.com/palantir/stacktrace"
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"github.com/tendermint/tendermint/libs/log"
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ethermint "github.com/tharsis/ethermint/types"
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"github.com/tharsis/ethermint/x/evm/types"
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)
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// Keeper grants access to the EVM module state and implements the go-ethereum StateDB interface.
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type Keeper struct {
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// Protobuf codec
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cdc codec.BinaryCodec
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// Store key required for the EVM Prefix KVStore. It is required by:
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// - storing account's Storage State
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// - storing account's Code
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// - storing transaction Logs
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// - storing Bloom filters by block height. Needed for the Web3 API.
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storeKey sdk.StoreKey
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// key to access the transient store, which is reset on every block during Commit
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transientKey sdk.StoreKey
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// module specific parameter space that can be configured through governance
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paramSpace paramtypes.Subspace
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// access to account state
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accountKeeper types.AccountKeeper
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// update balance and accounting operations with coins
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bankKeeper types.BankKeeper
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// access historical headers for EVM state transition execution
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stakingKeeper types.StakingKeeper
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// Manage the initial context and cache context stack for accessing the store,
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// emit events and log info.
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// It is kept as a field to make is accessible by the StateDb
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// functions. Resets on every transaction/block.
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ctxStack ContextStack
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// chain ID number obtained from the context's chain id
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eip155ChainID *big.Int
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// Tracer used to collect execution traces from the EVM transaction execution
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tracer string
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// trace EVM state transition execution. This value is obtained from the `--trace` flag.
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// For more info check https://geth.ethereum.org/docs/dapp/tracing
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debug bool
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// EVM Hooks for tx post-processing
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hooks types.EvmHooks
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}
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// NewKeeper generates new evm module keeper
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func NewKeeper(
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cdc codec.BinaryCodec,
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storeKey, transientKey sdk.StoreKey, paramSpace paramtypes.Subspace,
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ak types.AccountKeeper, bankKeeper types.BankKeeper, sk types.StakingKeeper,
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tracer string, debug bool,
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) *Keeper {
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// ensure evm module account is set
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if addr := ak.GetModuleAddress(types.ModuleName); addr == nil {
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panic("the EVM module account has not been set")
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}
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// set KeyTable if it has not already been set
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if !paramSpace.HasKeyTable() {
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paramSpace = paramSpace.WithKeyTable(types.ParamKeyTable())
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}
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// NOTE: we pass in the parameter space to the CommitStateDB in order to use custom denominations for the EVM operations
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return &Keeper{
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cdc: cdc,
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paramSpace: paramSpace,
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accountKeeper: ak,
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bankKeeper: bankKeeper,
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stakingKeeper: sk,
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storeKey: storeKey,
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transientKey: transientKey,
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tracer: tracer,
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debug: debug,
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}
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}
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// Ctx returns the current context from the context stack
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func (k Keeper) Ctx() sdk.Context {
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return k.ctxStack.CurrentContext()
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}
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// CommitCachedContexts commit all the cache contexts created by `StateDB.Snapshot`.
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func (k *Keeper) CommitCachedContexts() {
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k.ctxStack.Commit()
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}
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// CachedContextsEmpty returns true if there's no cache contexts.
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func (k *Keeper) CachedContextsEmpty() bool {
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return k.ctxStack.IsEmpty()
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}
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// Logger returns a module-specific logger.
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func (k Keeper) Logger(ctx sdk.Context) log.Logger {
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return ctx.Logger().With("module", types.ModuleName)
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}
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// WithContext clears the context stack, and set the initial context.
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func (k *Keeper) WithContext(ctx sdk.Context) {
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k.ctxStack.Reset(ctx)
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}
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// WithChainID sets the chain id to the local variable in the keeper
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func (k *Keeper) WithChainID(ctx sdk.Context) {
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chainID, err := ethermint.ParseChainID(ctx.ChainID())
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if err != nil {
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panic(err)
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}
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if k.eip155ChainID != nil && k.eip155ChainID.Cmp(chainID) != 0 {
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panic("chain id already set")
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}
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k.eip155ChainID = chainID
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}
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// ChainID returns the EIP155 chain ID for the EVM context
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func (k Keeper) ChainID() *big.Int {
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return k.eip155ChainID
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}
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// ----------------------------------------------------------------------------
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// Block Bloom
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// Required by Web3 API.
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// ----------------------------------------------------------------------------
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// GetBlockBloom gets bloombits from block height
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func (k Keeper) GetBlockBloom(ctx sdk.Context, height int64) (ethtypes.Bloom, bool) {
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store := ctx.KVStore(k.storeKey)
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bz := store.Get(types.BloomKey(height))
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if len(bz) == 0 {
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return ethtypes.Bloom{}, false
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}
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return ethtypes.BytesToBloom(bz), true
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}
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// SetBlockBloom sets the mapping from block height to bloom bits
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func (k Keeper) SetBlockBloom(ctx sdk.Context, height int64, bloom ethtypes.Bloom) {
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store := ctx.KVStore(k.storeKey)
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key := types.BloomKey(height)
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store.Set(key, bloom.Bytes())
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}
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// GetBlockBloomTransient returns bloom bytes for the current block height
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func (k Keeper) GetBlockBloomTransient() *big.Int {
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store := prefix.NewStore(k.Ctx().TransientStore(k.transientKey), types.KeyPrefixTransientBloom)
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heightBz := sdk.Uint64ToBigEndian(uint64(k.Ctx().BlockHeight()))
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bz := store.Get(heightBz)
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if len(bz) == 0 {
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return big.NewInt(0)
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}
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return new(big.Int).SetBytes(bz)
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}
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// SetBlockBloomTransient sets the given bloom bytes to the transient store. This value is reset on
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// every block.
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func (k Keeper) SetBlockBloomTransient(bloom *big.Int) {
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store := prefix.NewStore(k.Ctx().TransientStore(k.transientKey), types.KeyPrefixTransientBloom)
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heightBz := sdk.Uint64ToBigEndian(uint64(k.Ctx().BlockHeight()))
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store.Set(heightBz, bloom.Bytes())
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}
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// ----------------------------------------------------------------------------
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// Tx
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// ----------------------------------------------------------------------------
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// GetTxHashTransient returns the hash of current processing transaction
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func (k Keeper) GetTxHashTransient() common.Hash {
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store := k.Ctx().TransientStore(k.transientKey)
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bz := store.Get(types.KeyPrefixTransientTxHash)
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if len(bz) == 0 {
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return common.Hash{}
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}
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return common.BytesToHash(bz)
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}
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// SetTxHashTransient set the hash of processing transaction
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func (k Keeper) SetTxHashTransient(hash common.Hash) {
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store := k.Ctx().TransientStore(k.transientKey)
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store.Set(types.KeyPrefixTransientTxHash, hash.Bytes())
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}
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// SetTxIndexTransient set the index of processing transaction
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func (k Keeper) SetTxIndexTransient(index uint64) {
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store := k.Ctx().TransientStore(k.transientKey)
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store.Set(types.KeyPrefixTransientTxIndex, sdk.Uint64ToBigEndian(index))
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}
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// GetTxIndexTransient returns EVM transaction index on the current block.
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func (k Keeper) GetTxIndexTransient() uint64 {
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store := k.Ctx().TransientStore(k.transientKey)
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bz := store.Get(types.KeyPrefixTransientTxIndex)
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if len(bz) == 0 {
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return 0
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}
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return sdk.BigEndianToUint64(bz)
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}
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// IncreaseTxIndexTransient fetches the current EVM tx index from the transient store, increases its
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// value by one and then sets the new index back to the transient store.
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func (k Keeper) IncreaseTxIndexTransient() {
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txIndex := k.GetTxIndexTransient()
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k.SetTxIndexTransient(txIndex + 1)
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}
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// ResetRefundTransient resets the available refund amount to 0
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func (k Keeper) ResetRefundTransient(ctx sdk.Context) {
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store := ctx.TransientStore(k.transientKey)
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store.Set(types.KeyPrefixTransientRefund, sdk.Uint64ToBigEndian(0))
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}
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// ----------------------------------------------------------------------------
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// Log
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// ----------------------------------------------------------------------------
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// GetAllTxLogs return all the transaction logs from the store.
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func (k Keeper) GetAllTxLogs(ctx sdk.Context) []types.TransactionLogs {
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store := ctx.KVStore(k.storeKey)
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iter := sdk.KVStorePrefixIterator(store, types.KeyPrefixLogs)
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defer iter.Close()
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mapOrder := []string{}
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mapLogs := make(map[string][]*types.Log)
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for ; iter.Valid(); iter.Next() {
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var txLog types.Log
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k.cdc.MustUnmarshal(iter.Value(), &txLog)
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txlogs := mapLogs[txLog.TxHash]
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if len(txlogs) == 0 {
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mapOrder = append(mapOrder, txLog.TxHash)
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}
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txlogs = append(txlogs, &txLog)
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mapLogs[txLog.TxHash] = txlogs
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}
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txsLogs := []types.TransactionLogs{}
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for _, txHash := range mapOrder {
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if len(mapLogs[txHash]) > 0 {
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txLogs := types.TransactionLogs{Hash: txHash, Logs: mapLogs[txHash]}
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txsLogs = append(txsLogs, txLogs)
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}
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}
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return txsLogs
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}
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// GetLogs returns the current logs for a given transaction hash from the KVStore.
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// This function returns an empty, non-nil slice if no logs are found.
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func (k Keeper) GetTxLogs(txHash common.Hash) []*ethtypes.Log {
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store := prefix.NewStore(k.Ctx().KVStore(k.storeKey), types.KeyPrefixLogs)
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// We store the logs with key equal to txHash.Bytes() | sdk.Uint64ToBigEndian(uint64(log.Index)),
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// therefore, we set the end boundary(excluded) to txHash.Bytes() | uint64.Max -> []byte
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end := txHash.Bytes()
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end = append(end, []byte{0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}...)
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iter := store.Iterator(txHash.Bytes(), end)
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defer iter.Close()
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logs := []*ethtypes.Log{}
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for ; iter.Valid(); iter.Next() {
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var log types.Log
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k.cdc.MustUnmarshal(iter.Value(), &log)
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logs = append(logs, log.ToEthereum())
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}
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return logs
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}
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// SetLogs sets the logs for a transaction in the KVStore.
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func (k Keeper) SetLogs(txHash common.Hash, logs []*ethtypes.Log) {
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store := prefix.NewStore(k.Ctx().KVStore(k.storeKey), types.KeyPrefixLogs)
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for _, log := range logs {
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key := txHash.Bytes()
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key = append(key, sdk.Uint64ToBigEndian(uint64(log.Index))...)
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txIndexLog := types.NewLogFromEth(log)
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bz := k.cdc.MustMarshal(txIndexLog)
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store.Set(key, bz)
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}
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}
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// SetLog sets the log for a transaction in the KVStore.
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func (k Keeper) SetLog(log *ethtypes.Log) {
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store := prefix.NewStore(k.Ctx().KVStore(k.storeKey), types.KeyPrefixLogs)
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key := log.TxHash.Bytes()
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key = append(key, sdk.Uint64ToBigEndian(uint64(log.Index))...)
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txIndexLog := types.NewLogFromEth(log)
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bz := k.cdc.MustMarshal(txIndexLog)
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store.Set(key, bz)
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}
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// DeleteLogs removes the logs from the KVStore. It is used during journal.Revert.
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func (k Keeper) DeleteTxLogs(ctx sdk.Context, txHash common.Hash) {
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store := prefix.NewStore(ctx.KVStore(k.storeKey), types.KeyPrefixLogs)
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// We store the logs with key equal to txHash.Bytes() | sdk.Uint64ToBigEndian(uint64(log.Index)),
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// therefore, we set the end boundary(excluded) to txHash.Bytes() | uint64.Max -> []byte
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end := txHash.Bytes()
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end = append(end, []byte{0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}...)
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iter := store.Iterator(txHash.Bytes(), end)
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defer iter.Close()
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for ; iter.Valid(); iter.Next() {
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store.Delete(iter.Key())
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}
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}
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// GetLogSizeTransient returns EVM log index on the current block.
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func (k Keeper) GetLogSizeTransient() uint64 {
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store := k.Ctx().TransientStore(k.transientKey)
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bz := store.Get(types.KeyPrefixTransientLogSize)
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if len(bz) == 0 {
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return 0
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}
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return sdk.BigEndianToUint64(bz)
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}
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// IncreaseLogSizeTransient fetches the current EVM log index from the transient store, increases its
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// value by one and then sets the new index back to the transient store.
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func (k Keeper) IncreaseLogSizeTransient() {
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logSize := k.GetLogSizeTransient()
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store := k.Ctx().TransientStore(k.transientKey)
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store.Set(types.KeyPrefixTransientLogSize, sdk.Uint64ToBigEndian(logSize+1))
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}
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// ----------------------------------------------------------------------------
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// Storage
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// ----------------------------------------------------------------------------
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// GetAccountStorage return state storage associated with an account
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func (k Keeper) GetAccountStorage(ctx sdk.Context, address common.Address) (types.Storage, error) {
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storage := types.Storage{}
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err := k.ForEachStorage(address, func(key, value common.Hash) bool {
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storage = append(storage, types.NewState(key, value))
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return false
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})
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if err != nil {
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return types.Storage{}, err
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}
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return storage, nil
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}
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// ----------------------------------------------------------------------------
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// Account
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// ----------------------------------------------------------------------------
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func (k Keeper) DeleteState(addr common.Address, key common.Hash) {
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store := prefix.NewStore(k.Ctx().KVStore(k.storeKey), types.AddressStoragePrefix(addr))
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key = types.KeyAddressStorage(addr, key)
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store.Delete(key.Bytes())
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}
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// DeleteAccountStorage clears all the storage state associated with the given address.
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func (k Keeper) DeleteAccountStorage(addr common.Address) {
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_ = k.ForEachStorage(addr, func(key, _ common.Hash) bool {
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k.DeleteState(addr, key)
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return false
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})
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}
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// DeleteCode removes the contract code byte array from the store associated with
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// the given address.
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func (k Keeper) DeleteCode(addr common.Address) {
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hash := k.GetCodeHash(addr)
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if bytes.Equal(hash.Bytes(), common.BytesToHash(types.EmptyCodeHash).Bytes()) {
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return
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}
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store := prefix.NewStore(k.Ctx().KVStore(k.storeKey), types.KeyPrefixCode)
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store.Delete(hash.Bytes())
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}
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// ClearBalance subtracts the EVM all the balance denomination from the address
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// balance while also updating the total supply.
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func (k Keeper) ClearBalance(addr sdk.AccAddress) (prevBalance sdk.Coin, err error) {
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params := k.GetParams(k.Ctx())
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prevBalance = k.bankKeeper.GetBalance(k.Ctx(), addr, params.EvmDenom)
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if prevBalance.IsPositive() {
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if err := k.bankKeeper.SendCoinsFromAccountToModule(k.Ctx(), addr, types.ModuleName, sdk.Coins{prevBalance}); err != nil {
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return sdk.Coin{}, stacktrace.Propagate(err, "failed to transfer to module account")
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}
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if err := k.bankKeeper.BurnCoins(k.Ctx(), types.ModuleName, sdk.Coins{prevBalance}); err != nil {
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return sdk.Coin{}, stacktrace.Propagate(err, "failed to burn coins from evm module account")
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}
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}
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return prevBalance, nil
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}
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// ResetAccount removes the code, storage state, but keep all the native tokens stored
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// with the given address.
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func (k Keeper) ResetAccount(addr common.Address) {
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k.DeleteCode(addr)
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k.DeleteAccountStorage(addr)
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}
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// SetHooks sets the hooks for the EVM module
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func (k *Keeper) SetHooks(eh types.EvmHooks) *Keeper {
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if k.hooks != nil {
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panic("cannot set evm hooks twice")
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}
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k.hooks = eh
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return k
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}
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// PostTxProcessing delegate the call to the hooks. If no hook has been registered, this function returns with a `nil` error
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func (k *Keeper) PostTxProcessing(txHash common.Hash, logs []*ethtypes.Log) error {
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if k.hooks == nil {
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return nil
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}
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return k.hooks.PostTxProcessing(k.Ctx(), txHash, logs)
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}
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