Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

Problem: v0.47.x is outdated #193

Merged
merged 10 commits into from
Oct 9, 2023
Merged
2 changes: 1 addition & 1 deletion .github/workflows/dependencies-review.yml
Original file line number Diff line number Diff line change
Expand Up @@ -10,7 +10,7 @@ jobs:
steps:
- uses: actions/setup-go@v3
with:
go-version: "1.19"
go-version: "1.21"
check-latest: true
- name: "Checkout Repository"
uses: actions/checkout@v3
Expand Down
10 changes: 10 additions & 0 deletions CHANGELOG.md
Original file line number Diff line number Diff line change
Expand Up @@ -37,10 +37,20 @@ Ref: https://keepachangelog.com/en/1.0.0/

## [Unreleased]

### Improvements

* (x/gov) [#17780](https://github.com/cosmos/cosmos-sdk/pull/17780) Recover panics and turn them into errors when executing x/gov proposals.

### Bug Fixes

* (baseapp) [#17769](https://github.com/cosmos/cosmos-sdk/pull/17769) Ensure we respect block size constraints in the `DefaultProposalHandler`'s `PrepareProposal` handler when a nil or no-op mempool is used. We provide a `TxSelector` type to assist in making transaction selection generalized. We also fix a comparison bug in tx selection when `req.maxTxBytes` is reached.
* (config) [#17649](https://github.com/cosmos/cosmos-sdk/pull/17649) Fix `mempool.max-txs` configuration is invalid in `app.config`.
* (mempool) [#17668](https://github.com/cosmos/cosmos-sdk/pull/17668) Fix `PriorityNonceIterator.Next()` nil pointer ref for min priority at the end of iteration.
* (x/auth) [#17902](https://github.com/cosmos/cosmos-sdk/pull/17902) Remove tip posthandler.

### Client Breaking Changes

* (x/gov) [#17910](https://github.com/cosmos/cosmos-sdk/pull/17910) Remove telemetry for counting votes and proposals. It was incorrectly counting votes. Use alternatives, such as state streaming.

## [v0.47.5](https://github.com/cosmos/cosmos-sdk/releases/tag/v0.47.5) - 2023-09-01

Expand Down
256 changes: 256 additions & 0 deletions baseapp/abci_utils.go
Original file line number Diff line number Diff line change
@@ -0,0 +1,256 @@
package baseapp

import (
"github.com/cockroachdb/errors"
abci "github.com/cometbft/cometbft/abci/types"

sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/types/mempool"
)

type (
// GasTx defines the contract that a transaction with a gas limit must implement.
GasTx interface {
GetGas() uint64
}

// ProposalTxVerifier defines the interface that is implemented by BaseApp,
// that any custom ABCI PrepareProposal and ProcessProposal handler can use
// to verify a transaction.
ProposalTxVerifier interface {
PrepareProposalVerifyTx(tx sdk.Tx) ([]byte, error)
ProcessProposalVerifyTx(txBz []byte) (sdk.Tx, error)
}

// DefaultProposalHandler defines the default ABCI PrepareProposal and
// ProcessProposal handlers.
DefaultProposalHandler struct {
mempool mempool.Mempool
txVerifier ProposalTxVerifier
txSelector TxSelector
}
)

func NewDefaultProposalHandler(mp mempool.Mempool, txVerifier ProposalTxVerifier) *DefaultProposalHandler {
return &DefaultProposalHandler{
mempool: mp,
txVerifier: txVerifier,
txSelector: NewDefaultTxSelector(),
}
}

// SetTxSelector sets the TxSelector function on the DefaultProposalHandler.
func (h *DefaultProposalHandler) SetTxSelector(ts TxSelector) {
h.txSelector = ts
}

// PrepareProposalHandler returns the default implementation for processing an
// ABCI proposal. The application's mempool is enumerated and all valid
// transactions are added to the proposal. Transactions are valid if they:
//
// 1) Successfully encode to bytes.
// 2) Are valid (i.e. pass runTx, AnteHandler only).
//
// Enumeration is halted once RequestPrepareProposal.MaxBytes of transactions is
// reached or the mempool is exhausted.
//
// Note:
//
// - Step (2) is identical to the validation step performed in
// DefaultProcessProposal. It is very important that the same validation logic
// is used in both steps, and applications must ensure that this is the case in
// non-default handlers.
//
// - If no mempool is set or if the mempool is a no-op mempool, the transactions
// requested from CometBFT will simply be returned, which, by default, are in
// FIFO order.
func (h *DefaultProposalHandler) PrepareProposalHandler() sdk.PrepareProposalHandler {
return func(ctx sdk.Context, req abci.RequestPrepareProposal) abci.ResponsePrepareProposal {
var maxBlockGas uint64
if b := ctx.ConsensusParams().Block; b != nil {
maxBlockGas = uint64(b.MaxGas)
}

defer h.txSelector.Clear()

// If the mempool is nil or NoOp we simply return the transactions
// requested from CometBFT, which, by default, should be in FIFO order.
//
// Note, we still need to ensure the transactions returned respect req.MaxTxBytes.
_, isNoOp := h.mempool.(mempool.NoOpMempool)
if h.mempool == nil || isNoOp {
for _, txBz := range req.Txs {
// XXX: We pass nil as the memTx because we have no way of decoding the
// txBz. We'd need to break (update) the ProposalTxVerifier interface.
// As a result, we CANNOT account for block max gas.
stop := h.txSelector.SelectTxForProposal(uint64(req.MaxTxBytes), maxBlockGas, nil, txBz)
if stop {
break
}
}

return abci.ResponsePrepareProposal{Txs: h.txSelector.SelectedTxs()}
}

iterator := h.mempool.Select(ctx, req.Txs)
for iterator != nil {
memTx := iterator.Tx()

// NOTE: Since transaction verification was already executed in CheckTx,
// which calls mempool.Insert, in theory everything in the pool should be
// valid. But some mempool implementations may insert invalid txs, so we
// check again.
txBz, err := h.txVerifier.PrepareProposalVerifyTx(memTx)
if err != nil {
err := h.mempool.Remove(memTx)
if err != nil && !errors.Is(err, mempool.ErrTxNotFound) {
panic(err)
}
} else {
stop := h.txSelector.SelectTxForProposal(uint64(req.MaxTxBytes), maxBlockGas, memTx, txBz)
if stop {
break
}
}

iterator = iterator.Next()
}

return abci.ResponsePrepareProposal{Txs: h.txSelector.SelectedTxs()}
}
}

// ProcessProposalHandler returns the default implementation for processing an
// ABCI proposal. Every transaction in the proposal must pass 2 conditions:
//
// 1. The transaction bytes must decode to a valid transaction.
// 2. The transaction must be valid (i.e. pass runTx, AnteHandler only)
//
// If any transaction fails to pass either condition, the proposal is rejected.
// Note that step (2) is identical to the validation step performed in
// DefaultPrepareProposal. It is very important that the same validation logic
// is used in both steps, and applications must ensure that this is the case in
// non-default handlers.
func (h *DefaultProposalHandler) ProcessProposalHandler() sdk.ProcessProposalHandler {
// If the mempool is nil or NoOp we simply return ACCEPT,
// because PrepareProposal may have included txs that could fail verification.
_, isNoOp := h.mempool.(mempool.NoOpMempool)
if h.mempool == nil || isNoOp {
return NoOpProcessProposal()
}

return func(ctx sdk.Context, req abci.RequestProcessProposal) abci.ResponseProcessProposal {
var totalTxGas uint64

var maxBlockGas int64
if b := ctx.ConsensusParams().Block; b != nil {
maxBlockGas = b.MaxGas
}

for _, txBytes := range req.Txs {
tx, err := h.txVerifier.ProcessProposalVerifyTx(txBytes)
if err != nil {
return abci.ResponseProcessProposal{Status: abci.ResponseProcessProposal_REJECT}
}

if maxBlockGas > 0 {
gasTx, ok := tx.(GasTx)
if ok {
totalTxGas += gasTx.GetGas()
}

if totalTxGas > uint64(maxBlockGas) {
return abci.ResponseProcessProposal{Status: abci.ResponseProcessProposal_REJECT}
}
}
}

return abci.ResponseProcessProposal{Status: abci.ResponseProcessProposal_ACCEPT}
}
}

// NoOpPrepareProposal defines a no-op PrepareProposal handler. It will always
// return the transactions sent by the client's request.
func NoOpPrepareProposal() sdk.PrepareProposalHandler {
return func(_ sdk.Context, req abci.RequestPrepareProposal) abci.ResponsePrepareProposal {
return abci.ResponsePrepareProposal{Txs: req.Txs}
}
}

// NoOpProcessProposal defines a no-op ProcessProposal Handler. It will always
// return ACCEPT.
func NoOpProcessProposal() sdk.ProcessProposalHandler {
return func(_ sdk.Context, _ abci.RequestProcessProposal) abci.ResponseProcessProposal {
return abci.ResponseProcessProposal{Status: abci.ResponseProcessProposal_ACCEPT}
}
}

// TxSelector defines a helper type that assists in selecting transactions during
// mempool transaction selection in PrepareProposal. It keeps track of the total
// number of bytes and total gas of the selected transactions. It also keeps
// track of the selected transactions themselves.
type TxSelector interface {
// SelectedTxs should return a copy of the selected transactions.
SelectedTxs() [][]byte

// Clear should clear the TxSelector, nulling out all relevant fields.
Clear()

// SelectTxForProposal should attempt to select a transaction for inclusion in
// a proposal based on inclusion criteria defined by the TxSelector. It must
// return <true> if the caller should halt the transaction selection loop
// (typically over a mempool) or <false> otherwise.
SelectTxForProposal(maxTxBytes, maxBlockGas uint64, memTx sdk.Tx, txBz []byte) bool
}

type defaultTxSelector struct {
totalTxBytes uint64
totalTxGas uint64
selectedTxs [][]byte
}

func NewDefaultTxSelector() TxSelector {
return &defaultTxSelector{}
}

func (ts *defaultTxSelector) SelectedTxs() [][]byte {
txs := make([][]byte, len(ts.selectedTxs))
copy(txs, ts.selectedTxs)
return txs
}

func (ts *defaultTxSelector) Clear() {
ts.totalTxBytes = 0
ts.totalTxGas = 0
ts.selectedTxs = nil
}

func (ts *defaultTxSelector) SelectTxForProposal(maxTxBytes, maxBlockGas uint64, memTx sdk.Tx, txBz []byte) bool {
txSize := uint64(len(txBz))

var txGasLimit uint64
if memTx != nil {
if gasTx, ok := memTx.(GasTx); ok {
txGasLimit = gasTx.GetGas()
}
}

// only add the transaction to the proposal if we have enough capacity
if (txSize + ts.totalTxBytes) <= maxTxBytes {
// If there is a max block gas limit, add the tx only if the limit has
// not been met.
if maxBlockGas > 0 {
if (txGasLimit + ts.totalTxGas) <= maxBlockGas {
ts.totalTxGas += txGasLimit
ts.totalTxBytes += txSize
ts.selectedTxs = append(ts.selectedTxs, txBz)
}
} else {
ts.totalTxBytes += txSize
ts.selectedTxs = append(ts.selectedTxs, txBz)
}
}

// check if we've reached capacity; if so, we cannot select any more transactions
return ts.totalTxBytes >= maxTxBytes || (maxBlockGas > 0 && (ts.totalTxGas >= maxBlockGas))
}
Loading
Loading