Official Go implementation of the Ethereum protocol
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go-ethereum/cmd/evm/transition-test.sh

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14 KiB

#!/bin/bash
ticks="\`\`\`"
function showjson(){
echo "\`$1\`:"
echo "${ticks}json"
cat $1
echo ""
echo "$ticks"
}
function demo(){
echo "$ticks"
echo "$1"
$1
echo ""
echo "$ticks"
echo ""
}
function tick(){
echo "$ticks"
}
function code(){
echo "$ticks$1"
}
cat << "EOF"
# EVM tool
The EVM tool provides a few useful subcommands to facilitate testing at the EVM
layer.
* transition tool (`t8n`) : a stateless state transition utility
* transaction tool (`t9n`) : a transaction validation utility
* block builder tool (`b11r`): a block assembler utility
## State transition tool (`t8n`)
The `evm t8n` tool is a stateless state transition utility. It is a utility
which can
1. Take a prestate, including
- Accounts,
- Block context information,
- Previous blockshashes (*optional)
2. Apply a set of transactions,
3. Apply a mining-reward (*optional),
4. And generate a post-state, including
- State root, transaction root, receipt root,
- Information about rejected transactions,
- Optionally: a full or partial post-state dump
### Specification
The idea is to specify the behaviour of this binary very _strict_, so that other
node implementors can build replicas based on their own state-machines, and the
state generators can swap between a \`geth\`-based implementation and a \`parityvm\`-based
implementation.
#### Command line params
Command line params that need to be supported are
```
EOF
./evm t8n -h | grep "\-\-trace\.\|\-\-output\.\|\-\-state\.\|\-\-input"
cat << "EOF"
```
#### Objects
The transition tool uses JSON objects to read and write data related to the transition operation. The
following object definitions are required.
##### `alloc`
The `alloc` object defines the prestate that transition will begin with.
```go
// Map of address to account definition.
type Alloc map[common.Address]Account
// Genesis account. Each field is optional.
type Account struct {
Code []byte `json:"code"`
Storage map[common.Hash]common.Hash `json:"storage"`
Balance *big.Int `json:"balance"`
Nonce uint64 `json:"nonce"`
SecretKey []byte `json:"secretKey"`
}
```
##### `env`
The `env` object defines the environmental context in which the transition will
take place.
```go
type Env struct {
// required
CurrentCoinbase common.Address `json:"currentCoinbase"`
CurrentGasLimit uint64 `json:"currentGasLimit"`
CurrentNumber uint64 `json:"currentNumber"`
CurrentTimestamp uint64 `json:"currentTimestamp"`
Withdrawals []*Withdrawal `json:"withdrawals"`
// optional
CurrentDifficulty *big.Int `json:"currentDifficuly"`
CurrentRandom *big.Int `json:"currentRandom"`
CurrentBaseFee *big.Int `json:"currentBaseFee"`
ParentDifficulty *big.Int `json:"parentDifficulty"`
ParentGasUsed uint64 `json:"parentGasUsed"`
ParentGasLimit uint64 `json:"parentGasLimit"`
ParentTimestamp uint64 `json:"parentTimestamp"`
BlockHashes map[uint64]common.Hash `json:"blockHashes"`
ParentUncleHash common.Hash `json:"parentUncleHash"`
Ommers []Ommer `json:"ommers"`
}
type Ommer struct {
Delta uint64 `json:"delta"`
Address common.Address `json:"address"`
}
type Withdrawal struct {
Index uint64 `json:"index"`
ValidatorIndex uint64 `json:"validatorIndex"`
Recipient common.Address `json:"recipient"`
Amount *big.Int `json:"amount"`
}
```
##### `txs`
The `txs` object is an array of any of the transaction types: `LegacyTx`,
`AccessListTx`, or `DynamicFeeTx`.
```go
type LegacyTx struct {
Nonce uint64 `json:"nonce"`
GasPrice *big.Int `json:"gasPrice"`
Gas uint64 `json:"gas"`
To *common.Address `json:"to"`
Value *big.Int `json:"value"`
Data []byte `json:"data"`
V *big.Int `json:"v"`
R *big.Int `json:"r"`
S *big.Int `json:"s"`
SecretKey *common.Hash `json:"secretKey"`
}
type AccessList []AccessTuple
type AccessTuple struct {
Address common.Address `json:"address" gencodec:"required"`
StorageKeys []common.Hash `json:"storageKeys" gencodec:"required"`
}
type AccessListTx struct {
ChainID *big.Int `json:"chainId"`
Nonce uint64 `json:"nonce"`
GasPrice *big.Int `json:"gasPrice"`
Gas uint64 `json:"gas"`
To *common.Address `json:"to"`
Value *big.Int `json:"value"`
Data []byte `json:"data"`
AccessList AccessList `json:"accessList"`
V *big.Int `json:"v"`
R *big.Int `json:"r"`
S *big.Int `json:"s"`
SecretKey *common.Hash `json:"secretKey"`
}
type DynamicFeeTx struct {
ChainID *big.Int `json:"chainId"`
Nonce uint64 `json:"nonce"`
GasTipCap *big.Int `json:"maxPriorityFeePerGas"`
GasFeeCap *big.Int `json:"maxFeePerGas"`
Gas uint64 `json:"gas"`
To *common.Address `json:"to"`
Value *big.Int `json:"value"`
Data []byte `json:"data"`
AccessList AccessList `json:"accessList"`
V *big.Int `json:"v"`
R *big.Int `json:"r"`
S *big.Int `json:"s"`
SecretKey *common.Hash `json:"secretKey"`
}
```
##### `result`
The `result` object is output after a transition is executed. It includes
information about the post-transition environment.
```go
type ExecutionResult struct {
StateRoot common.Hash `json:"stateRoot"`
TxRoot common.Hash `json:"txRoot"`
ReceiptRoot common.Hash `json:"receiptsRoot"`
LogsHash common.Hash `json:"logsHash"`
Bloom types.Bloom `json:"logsBloom"`
Receipts types.Receipts `json:"receipts"`
Rejected []*rejectedTx `json:"rejected,omitempty"`
Difficulty *big.Int `json:"currentDifficulty"`
GasUsed uint64 `json:"gasUsed"`
BaseFee *big.Int `json:"currentBaseFee,omitempty"`
}
```
#### Error codes and output
All logging should happen against the `stderr`.
There are a few (not many) errors that can occur, those are defined below.
##### EVM-based errors (`2` to `9`)
- Other EVM error. Exit code `2`
- Failed configuration: when a non-supported or invalid fork was specified. Exit code `3`.
- Block history is not supplied, but needed for a `BLOCKHASH` operation. If `BLOCKHASH`
is invoked targeting a block which history has not been provided for, the program will
exit with code `4`.
##### IO errors (`10`-`20`)
- Invalid input json: the supplied data could not be marshalled.
The program will exit with code `10`
- IO problems: failure to load or save files, the program will exit with code `11`
```
# This should exit with 3
./evm t8n --input.alloc=./testdata/1/alloc.json --input.txs=./testdata/1/txs.json --input.env=./testdata/1/env.json --state.fork=Frontier+1346 2>/dev/null
EOF
./evm t8n --input.alloc=./testdata/1/alloc.json --input.txs=./testdata/1/txs.json --input.env=./testdata/1/env.json --state.fork=Frontier+1346 2>/dev/null
exitcode=$?
if [ $exitcode != 3 ]; then
echo "Failed, exitcode should be 3,was $exitcode"
else
echo "exitcode:$exitcode OK"
fi
cat << "EOF"
```
#### Forks
### Basic usage
The chain configuration to be used for a transition is specified via the
`--state.fork` CLI flag. A list of possible values and configurations can be
found in [`tests/init.go`](tests/init.go).
#### Examples
##### Basic usage
Invoking it with the provided example files
EOF
cmd="./evm t8n --input.alloc=./testdata/1/alloc.json --input.txs=./testdata/1/txs.json --input.env=./testdata/1/env.json --state.fork=Berlin"
tick;echo "$cmd"; tick
$cmd 2>/dev/null
echo "Two resulting files:"
echo ""
showjson alloc.json
showjson result.json
echo ""
echo "We can make them spit out the data to e.g. \`stdout\` like this:"
cmd="./evm t8n --input.alloc=./testdata/1/alloc.json --input.txs=./testdata/1/txs.json --input.env=./testdata/1/env.json --output.result=stdout --output.alloc=stdout --state.fork=Berlin"
tick;echo "$cmd"; tick
output=`$cmd 2>/dev/null`
echo "Output:"
echo "${ticks}json"
echo "$output"
echo "$ticks"
cat << "EOF"
#### About Ommers
Mining rewards and ommer rewards might need to be added. This is how those are applied:
- `block_reward` is the block mining reward for the miner (`0xaa`), of a block at height `N`.
- For each ommer (mined by `0xbb`), with blocknumber `N-delta`
- (where `delta` is the difference between the current block and the ommer)
- The account `0xbb` (ommer miner) is awarded `(8-delta)/ 8 * block_reward`
- The account `0xaa` (block miner) is awarded `block_reward / 32`
To make `t8n` apply these, the following inputs are required:
- `--state.reward`
- For ethash, it is `5000000000000000000` `wei`,
- If this is not defined, mining rewards are not applied,
- A value of `0` is valid, and causes accounts to be 'touched'.
- For each ommer, the tool needs to be given an `addres\` and a `delta`. This
is done via the `ommers` field in `env`.
Note: the tool does not verify that e.g. the normal uncle rules apply,
and allows e.g two uncles at the same height, or the uncle-distance. This means that
the tool allows for negative uncle reward (distance > 8)
Example:
EOF
showjson ./testdata/5/env.json
echo "When applying this, using a reward of \`0x08\`"
cmd="./evm t8n --input.alloc=./testdata/5/alloc.json -input.txs=./testdata/5/txs.json --input.env=./testdata/5/env.json --output.alloc=stdout --state.reward=0x80 --state.fork=Berlin"
output=`$cmd 2>/dev/null`
echo "Output:"
echo "${ticks}json"
echo "$output"
echo "$ticks"
echo "#### Future EIPS"
echo ""
echo "It is also possible to experiment with future eips that are not yet defined in a hard fork."
echo "Example, putting EIP-1344 into Frontier: "
cmd="./evm t8n --state.fork=Frontier+1344 --input.pre=./testdata/1/pre.json --input.txs=./testdata/1/txs.json --input.env=/testdata/1/env.json"
tick;echo "$cmd"; tick
echo ""
echo "#### Block history"
echo ""
echo "The \`BLOCKHASH\` opcode requires blockhashes to be provided by the caller, inside the \`env\`."
echo "If a required blockhash is not provided, the exit code should be \`4\`:"
echo "Example where blockhashes are provided: "
demo "./evm t8n --input.alloc=./testdata/3/alloc.json --input.txs=./testdata/3/txs.json --input.env=./testdata/3/env.json --trace --state.fork=Berlin"
cmd="cat trace-0-0x72fadbef39cd251a437eea619cfeda752271a5faaaa2147df012e112159ffb81.jsonl | grep BLOCKHASH -C2"
tick && echo $cmd && tick
echo "$ticks"
cat trace-0-0x72fadbef39cd251a437eea619cfeda752271a5faaaa2147df012e112159ffb81.jsonl | grep BLOCKHASH -C2
echo "$ticks"
echo ""
echo "In this example, the caller has not provided the required blockhash:"
cmd="./evm t8n --input.alloc=./testdata/4/alloc.json --input.txs=./testdata/4/txs.json --input.env=./testdata/4/env.json --trace --state.fork=Berlin"
tick && echo $cmd && $cmd 2>&1
errc=$?
tick
echo "Error code: $errc"
echo ""
echo "#### Chaining"
echo ""
echo "Another thing that can be done, is to chain invocations:"
cmd1="./evm t8n --input.alloc=./testdata/1/alloc.json --input.txs=./testdata/1/txs.json --input.env=./testdata/1/env.json --state.fork=Berlin --output.alloc=stdout"
cmd2="./evm t8n --input.alloc=stdin --input.env=./testdata/1/env.json --input.txs=./testdata/1/txs.json --state.fork=Berlin"
echo "$ticks"
echo "$cmd1 | $cmd2"
output=$($cmd1 | $cmd2 )
echo $output
echo "$ticks"
echo "What happened here, is that we first applied two identical transactions, so the second one was rejected. "
echo "Then, taking the poststate alloc as the input for the next state, we tried again to include"
echo "the same two transactions: this time, both failed due to too low nonce."
echo ""
echo "In order to meaningfully chain invocations, one would need to provide meaningful new \`env\`, otherwise the"
echo "actual blocknumber (exposed to the EVM) would not increase."
echo ""
echo "#### Transactions in RLP form"
echo ""
echo "It is possible to provide already-signed transactions as input to, using an \`input.txs\` which ends with the \`rlp\` suffix."
echo "The input format for RLP-form transactions is _identical_ to the _output_ format for block bodies. Therefore, it's fully possible"
echo "to use the evm to go from \`json\` input to \`rlp\` input."
echo ""
echo "The following command takes **json** the transactions in \`./testdata/13/txs.json\` and signs them. After execution, they are output to \`signed_txs.rlp\`.:"
cmd="./evm t8n --state.fork=London --input.alloc=./testdata/13/alloc.json --input.txs=./testdata/13/txs.json --input.env=./testdata/13/env.json --output.result=alloc_jsontx.json --output.body=signed_txs.rlp"
echo "$ticks"
echo $cmd
$cmd 2>&1
echo "$ticks"
echo ""
echo "The \`output.body\` is the rlp-list of transactions, encoded in hex and placed in a string a'la \`json\` encoding rules:"
demo "cat signed_txs.rlp"
echo "We can use \`rlpdump\` to check what the contents are: "
echo "$ticks"
echo "rlpdump -hex \$(cat signed_txs.rlp | jq -r )"
rlpdump -hex $(cat signed_txs.rlp | jq -r )
echo "$ticks"
echo "Now, we can now use those (or any other already signed transactions), as input, like so: "
cmd="./evm t8n --state.fork=London --input.alloc=./testdata/13/alloc.json --input.txs=./signed_txs.rlp --input.env=./testdata/13/env.json --output.result=alloc_rlptx.json"
echo "$ticks"
echo $cmd
$cmd 2>&1
echo "$ticks"
echo "You might have noticed that the results from these two invocations were stored in two separate files. "
echo "And we can now finally check that they match."
echo "$ticks"
echo "cat alloc_jsontx.json | jq .stateRoot && cat alloc_rlptx.json | jq .stateRoot"
cat alloc_jsontx.json | jq .stateRoot && cat alloc_rlptx.json | jq .stateRoot
echo "$ticks"