# Nimbus # Copyright (c) 2019 Status Research & Development GmbH # Licensed under either of # * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0) # * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT) # at your option. This file may not be copied, modified, or distributed except according to those terms. proc hostReleaseResultImpl(res: var nimbus_result) {.cdecl, gcsafe.} = dealloc(res.output_data) proc hostGetTxContextImpl(ctx: Computation): nimbus_tx_context {.cdecl.} = let vmstate = ctx.vmState result.tx_gas_price = toEvmc(vmstate.txGasPrice.u256) result.tx_origin = vmstate.txOrigin result.block_coinbase = vmstate.coinbase result.block_number = vmstate.blockNumber.truncate(int64) result.block_timestamp = vmstate.timestamp.toUnix() result.block_gas_limit = int64(vmstate.blockHeader.gasLimit) result.block_difficulty = toEvmc(vmstate.difficulty) result.chain_id = toEvmc(vmstate.chaindb.config.chainId.u256) proc hostGetBlockHashImpl(ctx: Computation, number: int64): Hash256 {.cdecl.} = ctx.vmState.getAncestorHash(number.u256) proc hostAccountExistsImpl(ctx: Computation, address: EthAddress): bool {.cdecl.} = let db = ctx.vmState.readOnlyStateDB if ctx.fork >= FkSpurious: not db.isDeadAccount(address) else: db.accountExists(address) proc hostGetStorageImpl(ctx: Computation, address: EthAddress, key: var evmc_bytes32): evmc_bytes32 {.cdecl.} = ctx.vmState.accountDB.getStorage(address, Uint256.fromEvmc(key))[0].toEvmc() proc hostSetStorageImpl(ctx: Computation, address: EthAddress, key, value: var evmc_bytes32): evmc_storage_status {.cdecl.} = let slot = Uint256.fromEvmc(key) newValue = Uint256.fromEvmc(value) statedb = ctx.vmState.readOnlyStateDb currValue = statedb.getStorage(address, slot)[0] assert address == ctx.msg.contractAddress var status = EVMC_STORAGE_MODIFIED gasRefund = 0.GasInt origValue = 0.u256 if newValue == currValue: status = EVMC_STORAGE_UNCHANGED else: origValue = statedb.getCommittedStorage(address, slot) if origValue == currValue or ctx.fork < FkIstanbul: if currValue == 0: status = EVMC_STORAGE_ADDED elif newValue == 0: status = EVMC_STORAGE_DELETED else: status = EVMC_STORAGE_MODIFIED_AGAIN ctx.vmState.mutateStateDB: db.setStorage(address, slot, newValue) let gasParam = GasParams(kind: Op.Sstore, s_status: status, s_currentValue: currValue, s_originalValue: origValue ) gasRefund = ctx.gasCosts[Sstore].c_handler(newValue, gasParam)[1] if gasRefund != 0: ctx.gasMeter.refundGas(gasRefund) result = status proc hostGetBalanceImpl(ctx: Computation, address: EthAddress): evmc_bytes32 {.cdecl.} = ctx.vmState.readOnlyStateDB.getBalance(address).toEvmc() proc hostGetCodeSizeImpl(ctx: Computation, address: EthAddress): uint {.cdecl.} = ctx.vmState.readOnlyStateDB.getCode(address).len.uint proc hostGetCodeHashImpl(ctx: Computation, address: EthAddress): Hash256 {.cdecl.} = let db = ctx.vmstate.readOnlyStateDB if not db.accountExists(address): return if db.isEmptyAccount(address): return db.getCodeHash(address) proc hostCopyCodeImpl(ctx: Computation, address: EthAddress, codeOffset: int, bufferData: ptr byte, bufferSize: int): int {.cdecl.} = var code = ctx.vmState.readOnlyStateDB.getCode(address) # Handle "big offset" edge case. if codeOffset > code.len: return 0 let maxToCopy = code.len - codeOffset let numToCopy = min(maxToCopy, bufferSize) if numToCopy > 0: copyMem(bufferData, code.slice(codeOffset).baseAddr, numToCopy) result = numToCopy proc hostSelfdestructImpl(ctx: Computation, address, beneficiary: EthAddress) {.cdecl.} = assert address == ctx.msg.contractAddress ctx.execSelfDestruct(beneficiary) proc hostEmitLogImpl(ctx: Computation, address: EthAddress, data: ptr byte, dataSize: int, topics: UncheckedArray[evmc_bytes32], topicsCount: int) {.cdecl.} = var log: Log if topicsCount > 0: log.topics = newSeq[Topic](topicsCount) for i in 0 ..< topicsCount: log.topics[i] = topics[i].bytes if dataSize > 0: log.data = newSeq[byte](dataSize) copyMem(log.data[0].addr, data, dataSize) log.address = address ctx.addLogEntry(log) template createImpl(c: Computation, m: nimbus_message, res: nimbus_result) = # TODO: use evmc_message to evoid copy var childMsg = Message( kind: CallKind(m.kind), depth: m.depth, gas: m.gas, sender: m.sender, value: Uint256.fromEvmc(m.value) ) if m.input_size.int > 0: childMsg.data = newSeq[byte](m.input_size.int) copyMem(childMsg.data[0].addr, m.input_data, m.input_size.int) let child = newComputation(c.vmState, childMsg, Uint256.fromEvmc(m.create2_salt)) child.execCreate() if not child.shouldBurnGas: res.gas_left = child.gasMeter.gasRemaining if child.isSuccess: c.merge(child) res.status_code = EVMC_SUCCESS res.create_address = child.msg.contractAddress else: res.status_code = if child.shouldBurnGas: EVMC_FAILURE else: EVMC_REVERT if child.output.len > 0: res.output_size = child.output.len.uint res.output_data = cast[ptr byte](alloc(child.output.len)) copyMem(res.output_data, child.output[0].addr, child.output.len) res.release = hostReleaseResultImpl template callImpl(c: Computation, m: nimbus_message, res: nimbus_result) = var childMsg = Message( kind: CallKind(m.kind), depth: m.depth, gas: m.gas, sender: m.sender, codeAddress: m.destination, contractAddress: if m.kind == EVMC_CALL: m.destination else: c.msg.contractAddress, value: Uint256.fromEvmc(m.value), flags: MsgFlags(m.flags) ) if m.input_size.int > 0: childMsg.data = newSeq[byte](m.input_size.int) copyMem(childMsg.data[0].addr, m.input_data, m.input_size.int) let child = newComputation(c.vmState, childMsg) child.execCall() if not child.shouldBurnGas: res.gas_left = child.gasMeter.gasRemaining if child.isSuccess: c.merge(child) res.status_code = EVMC_SUCCESS else: res.status_code = if child.shouldBurnGas: EVMC_FAILURE else: EVMC_REVERT if child.output.len > 0: res.output_size = child.output.len.uint res.output_data = cast[ptr byte](alloc(child.output.len)) copyMem(res.output_data, child.output[0].addr, child.output.len) res.release = hostReleaseResultImpl proc hostCallImpl(ctx: Computation, msg: var nimbus_message): nimbus_result {.cdecl.} = if msg.kind == EVMC_CREATE or msg.kind == EVMC_CREATE2: createImpl(ctx, msg, result) else: callImpl(ctx, msg, result) proc initHostInterface(): evmc_host_interface = result.account_exists = cast[evmc_account_exists_fn](hostAccountExistsImpl) result.get_storage = cast[evmc_get_storage_fn](hostGetStorageImpl) result.set_storage = cast[evmc_set_storage_fn](hostSetStorageImpl) result.get_balance = cast[evmc_get_balance_fn](hostGetBalanceImpl) result.get_code_size = cast[evmc_get_code_size_fn](hostGetCodeSizeImpl) result.get_code_hash = cast[evmc_get_code_hash_fn](hostGetCodeHashImpl) result.copy_code = cast[evmc_copy_code_fn](hostCopyCodeImpl) result.selfdestruct = cast[evmc_selfdestruct_fn](hostSelfdestructImpl) result.call = cast[evmc_call_fn](hostCallImpl) result.get_tx_context = cast[evmc_get_tx_context_fn](hostGetTxContextImpl) result.get_block_hash = cast[evmc_get_block_hash_fn](hostGetBlockHashImpl) result.emit_log = cast[evmc_emit_log_fn](hostEmitLogImpl) proc vmSetOptionImpl(vm: ptr evmc_vm, name, value: cstring): evmc_set_option_result {.cdecl.} = return EVMC_SET_OPTION_INVALID_NAME proc vmExecuteImpl(vm: ptr evmc_vm, host: ptr evmc_host_interface, ctx: Computation, rev: evmc_revision, msg: evmc_message, code: ptr byte, code_size: uint): evmc_result {.cdecl.} = discard proc vmGetCapabilitiesImpl(vm: ptr evmc_vm): evmc_capabilities {.cdecl.} = result.incl(EVMC_CAPABILITY_EVM1) proc vmDestroyImpl(vm: ptr evmc_vm) {.cdecl.} = dealloc(vm) const EVMC_HOST_NAME = "nimbus_vm" EVMC_VM_VERSION = "0.0.1" proc init(vm: var evmc_vm) = vm.abi_version = EVMC_ABI_VERSION vm.name = EVMC_HOST_NAME vm.version = EVMC_VM_VERSION vm.destroy = vmDestroyImpl vm.execute = cast[evmc_execute_fn](vmExecuteImpl) vm.get_capabilities = vmGetCapabilitiesImpl vm.set_option = vmSetOptionImpl let gHost = initHostInterface() proc nim_host_get_interface(): ptr nimbus_host_interface {.exportc, cdecl.} = result = cast[ptr nimbus_host_interface](gHost.unsafeAddr) proc nim_host_create_context(vmstate: BaseVmState, msg: ptr evmc_message): Computation {.exportc, cdecl.} = #result = HostContext( # vmState: vmstate, # gasPrice: GasInt(gasPrice), # origin: fromEvmc(origin) #) GC_ref(result) proc nim_host_destroy_context(ctx: Computation) {.exportc, cdecl.} = GC_unref(ctx) proc nim_create_nimbus_vm(): ptr evmc_vm {.exportc, cdecl.} = result = create(evmc_vm) init(result[])