nimbus-eth1/nimbus/transaction/host_call_nested.nim

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# Nimbus - Services available to EVM code that is run for a transaction
#
# Copyright (c) 2019-2021 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.
#{.push raises: [Defect].}
import
sets, stint, chronicles, stew/ranges/ptr_arith,
eth/common/eth_types,
Transaction: EVMC fix, `CREATE2` salt is a 256-bit blob not a number This changes fixes a bug in `CREATE2` ops when used with EVMC. Because it changes the salt type, it affects non-EVMC code as well. The salt was passed through EVMC with the wrong byte order, although this went unnoticed as the Nimbus host flipped the byte order before using it. This was found when running Nimbus with third-party EVM, ["evmone"](https://github.com/ethereum/evmone). There are different ways to remedy this. If treated as a number, Nimbus EVM would byte-flip the value when calling EVMC, then Nimbus host would flip the received value. Finally, it would be flipped a third time when generating the address in `generateSafeAddress`. The first two flips can be eliminated by negotiation (like other numbers), but there would always be one flip. As a bit pattern, Nimbus EVM would flip the same way it does when dealing with hashes on the stack (e.g. with `getBlockHash`). Nimbus host wouldn't flip at all - and when using third-party EVMs there would be no flips in Nimbus. Because this value is not for arithmetic, any bit pattern is valid, and there shouldn't be any flips when using a third-party EVM, the bit-pattern interpretation is favoured. The only flip is done in Nimbus EVM (and might be eliminated in an optimised version). As suggested, we'll define a new "opaque 256 bits" type to hold this value. (Similar to `Hash256`, but the salt isn't necessarily a hash.) Signed-off-by: Jamie Lokier <jamie@shareable.org>
2021-06-09 22:32:42 +00:00
".."/[vm_types, vm_computation, utils],
./host_types, ./host_trace
proc evmcResultRelease(res: var EvmcResult) {.cdecl, gcsafe.} =
dealloc(res.output_data)
proc beforeExecCreateEvmcNested(host: TransactionHost,
m: EvmcMessage): Computation {.inline.} =
# TODO: use evmc_message to avoid copy
let childMsg = Message(
kind: CallKind(m.kind),
depth: m.depth,
gas: m.gas,
sender: m.sender.fromEvmc,
value: m.value.fromEvmc,
data: @(makeOpenArray(m.inputData, m.inputSize.int))
)
Transaction: EVMC fix, `CREATE2` salt is a 256-bit blob not a number This changes fixes a bug in `CREATE2` ops when used with EVMC. Because it changes the salt type, it affects non-EVMC code as well. The salt was passed through EVMC with the wrong byte order, although this went unnoticed as the Nimbus host flipped the byte order before using it. This was found when running Nimbus with third-party EVM, ["evmone"](https://github.com/ethereum/evmone). There are different ways to remedy this. If treated as a number, Nimbus EVM would byte-flip the value when calling EVMC, then Nimbus host would flip the received value. Finally, it would be flipped a third time when generating the address in `generateSafeAddress`. The first two flips can be eliminated by negotiation (like other numbers), but there would always be one flip. As a bit pattern, Nimbus EVM would flip the same way it does when dealing with hashes on the stack (e.g. with `getBlockHash`). Nimbus host wouldn't flip at all - and when using third-party EVMs there would be no flips in Nimbus. Because this value is not for arithmetic, any bit pattern is valid, and there shouldn't be any flips when using a third-party EVM, the bit-pattern interpretation is favoured. The only flip is done in Nimbus EVM (and might be eliminated in an optimised version). As suggested, we'll define a new "opaque 256 bits" type to hold this value. (Similar to `Hash256`, but the salt isn't necessarily a hash.) Signed-off-by: Jamie Lokier <jamie@shareable.org>
2021-06-09 22:32:42 +00:00
return newComputation(host.vmState, childMsg,
cast[ContractSalt](m.create2_salt))
proc afterExecCreateEvmcNested(host: TransactionHost, child: Computation,
res: var EvmcResult) {.inline.} =
if not child.shouldBurnGas:
res.gas_left = child.gasMeter.gasRemaining
if child.isSuccess:
host.computation.merge(child)
res.status_code = EVMC_SUCCESS
res.create_address = child.msg.contractAddress.toEvmc
else:
res.status_code = if child.shouldBurnGas: EVMC_FAILURE else: EVMC_REVERT
if child.output.len > 0:
# TODO: can we move the ownership of seq to raw pointer?
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 = evmcResultRelease
proc beforeExecCallEvmcNested(host: TransactionHost,
m: EvmcMessage): Computation {.inline.} =
let childMsg = Message(
kind: CallKind(m.kind),
depth: m.depth,
gas: m.gas,
sender: m.sender.fromEvmc,
codeAddress: m.destination.fromEvmc,
contractAddress: if m.kind == EVMC_CALL:
m.destination.fromEvmc
else:
host.computation.msg.contractAddress,
value: m.value.fromEvmc,
data: @(makeOpenArray(m.inputData, m.inputSize.int)),
flags: if m.isStatic: emvcStatic else: emvcNoFlags,
)
return newComputation(host.vmState, childMsg)
proc afterExecCallEvmcNested(host: TransactionHost, child: Computation,
res: var EvmcResult) {.inline.} =
if not child.shouldBurnGas:
res.gas_left = child.gasMeter.gasRemaining
if child.isSuccess:
host.computation.merge(child)
res.status_code = EVMC_SUCCESS
else:
res.status_code = if child.shouldBurnGas: EVMC_FAILURE else: EVMC_REVERT
if child.output.len > 0:
# TODO: can we move the ownership of seq to raw pointer?
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 = evmcResultRelease
# The next three functions are designed so `callEvmcNested` uses very small C
# stack usage for each level of nested EVM calls.
#
# To keep the C stack usage small when there are deeply nested EVM calls,
# `callEvmcNested` must use as little stack as possible, going from the EVM
# which calls it to the nested EVM which it calls.
#
# First, `callEvmcNested` itself is `template` so it is inlined to the caller
# at Nim level, not C level. Only at Nim level is inlining guaranteed across
# `import`. This saves a C stack frame, which matters because some C compilers
# reserve space for 1-3 copies of the large `EvmcResult` return value.
#
# Second, the complicated parts of preparation and return are done in
# out-of-line functions `beforeExecEvmcNested` and `afterExecEvmcNested`. They
# are annotated with `{.noinline.}` to make sure they are out-of-line. The
# annotation ensures they don't contribute to the stack frame of
# `callEvmcNested`, because otherwise the compiler can optimistically inline.
# (Even across modules when using `-flto`).
#
# The functions `beforeExecEvmcNested` and `afterExecEvmcNested` can use as
# much stack as they like.
proc beforeExecEvmcNested(host: TransactionHost, msg: EvmcMessage): Computation
# This function must be declared with `{.noinline.}` to make sure it doesn't
# contribute to the stack frame of `callEvmcNested` below.
{.noinline.} =
host.showCallEntry(msg)
let c = if msg.kind == EVMC_CREATE or msg.kind == EVMC_CREATE2:
beforeExecCreateEvmcNested(host, msg)
else:
beforeExecCallEvmcNested(host, msg)
when defined(evmc_enabled):
c.host.init(cast[ptr nimbus_host_interface](host.hostInterface),
cast[typeof(c.host.context)](host))
host.saveComputation.add(host.computation)
host.computation = c
return c
proc afterExecEvmcNested(host: TransactionHost, child: Computation,
kind: EvmcCallKind): EvmcResult
# This function must be declared with `{.noinline.}` to make sure it doesn't
# contribute to the stack frame of `callEvmcNested` below.
{.noinline.} =
host.computation = host.saveComputation[^1]
host.saveComputation[^1] = nil
host.saveComputation.setLen(host.saveComputation.len - 1)
if kind == EVMC_CREATE or kind == EVMC_CREATE2:
afterExecCreateEvmcNested(host, child, result)
else:
afterExecCallEvmcNested(host, child, result)
host.showCallReturn(result, kind.isCreate)
template callEvmcNested*(host: TransactionHost, msg: EvmcMessage): EvmcResult =
# This function must be declared `template` to ensure it is inlined at Nim
# level to its caller across `import`. C level `{.inline.}` won't do this.
# Note that template parameters `host` and `msg` are multiple-evaluated.
let child = beforeExecEvmcNested(host, msg)
child.execCallOrCreate()
afterExecEvmcNested(host, child, msg.kind)