Precompile Contracts
On top of a set of opcodes, EVM also offers advanced functionalities through precompiled contracts. These are special contracts bundled with EVM at fixed addresses that can be called with a determined gas. The gas is purely the contractual cost, neither the cost of the call itself nor the instructions to put the parameters in memory.
Precompiled contract addresses start from 1 and increment for each contract. New hardforks may introduce new precompiled contracts. Similar to the regular contracts, new contracts are called from opcodes with instructions, such as CALL.
For all precompiled contracts, inputs that are shorter than expected are assumed to be virtually padded with zeros at the end, whereas any surplus bytes at the end of inputs that are longer than expected are ignored.
The address precompile contract is described by the last 2 bytes:
Byte range [0..18] | Byte range [18..20] |
---|---|
0000000000000000 | addr |
EcRecover
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000001 | 3000 | hash, v, r, s | publicAddress |
EcRecover is a elliptic curve digital signature algorithm (ECDSA) public key recovery function. For details, see this page.
SHA2-256
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000002 | 60 | data | hash |
SHA2-256 is the hash function used in Bitcoin. For details, see this page
RIPEMD-160
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000003 | 600 | data | hash |
For details, see this page.
Identity
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000004 | 15 | data | data |
Identity copies and returns input data. For details, see this page.
Modexp
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000005 | 200 | Bsize, Esize, Msize, B, E, M | value |
Modexp is an arbitrary-precision exponentiation under modulo. For details, see this page.
EcAdd
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000006 | 150 | x1, x2, y1, y2 | x, y |
EcAdd is the point addition (ADD) on the elliptic curve alt_bn128. For details, see this page.
EcMul
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000007 | 6000 | x1, x2, s | x, y |
EcMul is the scalar multiplication (MUL) on the elliptic curve alt_bn128. For details, see this page.
EcPairing
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000008 | 45000 | x1, y1, x2, y2, …, xk, yk | success |
EcPairing is the bilinear function on groups on the elliptic curve alt_bn128
. For details, see this page.
Blake2f
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000009 | 0 | rounds, h, m, t, f | h |
Blake2f is the compression function F used in the BLAKE2 cryptographic hashing algorithm. For details, see this page.
GetHeader
🚧 Information updates in progress - stay tuned!
GetCell
🚧 Information updates in progress - stay tuned!
CallCkbVm
ADDRESS | MINIMUM GAS | INPUT | OUTPUT |
---|---|---|---|
0x00000000000000000104 | 300 | cell dep, args | big-endian bytes |
Call a script that runs in CKB-VM and return the execute result.
Inputs
Click here to view ABI
struct CellDep {
OutPoint outPoint;
uint32 index;
}
struct InputArgs {
bytes[] args;
}
Output
Click here to view ABI
struct Result {
int8 ret;
}
Example
Click here to view ABI
contract CallCkbVm {
event CallCkbVmEvent(int8);
event NotGetCellEvent();
int8 ret;
function testCallCkbVm(
bytes32 txHash,
uint32 index,
uint8 depType,
bytes[] memory input_args
) public {
OutPoint memory outPoint = OutPoint(txHash, index);
(bool isSuccess, bytes memory res) = address(0x0104).staticcall(
abi.encode(CellDep(outPoint, depType), input_args)
);
if (isSuccess) {
ret = int8(uint8(res[0]));
emit CallCkbVmEvent(ret);
} else {
emit NotGetCellEvent();
}
}
function callCkbVm() public view returns (int8) {
return ret;
}
}
VerifyInCkbVm
🚧 Information updates in progress - stay tuned!