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msg_dispatcher.go
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/
msg_dispatcher.go
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package keeper
import (
"bytes"
"fmt"
"sort"
abci "github.com/tendermint/tendermint/abci/types"
sdk "github.com/Finschia/finschia-sdk/types"
sdkerrors "github.com/Finschia/finschia-sdk/types/errors"
wasmvmtypes "github.com/Finschia/wasmvm/types"
"github.com/Finschia/wasmd/x/wasm/types"
)
// Messenger is an extension point for custom wasmd message handling
type Messenger interface {
// DispatchMsg encodes the wasmVM message and dispatches it.
DispatchMsg(ctx sdk.Context, contractAddr sdk.AccAddress, contractIBCPortID string, msg wasmvmtypes.CosmosMsg) (events []sdk.Event, data [][]byte, err error)
}
// replyer is a subset of keeper that can handle replies to submessages
type replyer interface {
reply(ctx sdk.Context, contractAddress sdk.AccAddress, reply wasmvmtypes.Reply) ([]byte, error)
}
// MessageDispatcher coordinates message sending and submessage reply/ state commits
type MessageDispatcher struct {
messenger Messenger
keeper replyer
}
// NewMessageDispatcher constructor
func NewMessageDispatcher(messenger Messenger, keeper replyer) *MessageDispatcher {
return &MessageDispatcher{messenger: messenger, keeper: keeper}
}
// DispatchMessages sends all messages.
func (d MessageDispatcher) DispatchMessages(ctx sdk.Context, contractAddr sdk.AccAddress, ibcPort string, msgs []wasmvmtypes.CosmosMsg) error {
for _, msg := range msgs {
events, _, err := d.messenger.DispatchMsg(ctx, contractAddr, ibcPort, msg)
if err != nil {
return err
}
// redispatch all events, (type sdk.EventTypeMessage will be filtered out in the handler)
ctx.EventManager().EmitEvents(events)
}
return nil
}
// dispatchMsgWithGasLimit sends a message with gas limit applied
func (d MessageDispatcher) dispatchMsgWithGasLimit(ctx sdk.Context, contractAddr sdk.AccAddress, ibcPort string, msg wasmvmtypes.CosmosMsg, gasLimit uint64) (events []sdk.Event, data [][]byte, err error) {
limitedMeter := sdk.NewGasMeter(gasLimit)
subCtx := ctx.WithGasMeter(limitedMeter)
// catch out of gas panic and just charge the entire gas limit
defer func() {
if r := recover(); r != nil {
// if it's not an OutOfGas error, raise it again
if _, ok := r.(sdk.ErrorOutOfGas); !ok {
// log it to get the original stack trace somewhere (as panic(r) keeps message but stacktrace to here
moduleLogger(ctx).Info("SubMsg rethrowing panic: %#v", r)
panic(r)
}
ctx.GasMeter().ConsumeGas(gasLimit, "Sub-Message OutOfGas panic")
err = sdkerrors.Wrap(sdkerrors.ErrOutOfGas, "SubMsg hit gas limit")
}
}()
events, data, err = d.messenger.DispatchMsg(subCtx, contractAddr, ibcPort, msg)
// make sure we charge the parent what was spent
spent := subCtx.GasMeter().GasConsumed()
ctx.GasMeter().ConsumeGas(spent, "From limited Sub-Message")
return events, data, err
}
// DispatchSubmessages builds a sandbox to execute these messages and returns the execution result to the contract
// that dispatched them, both on success as well as failure
func (d MessageDispatcher) DispatchSubmessages(ctx sdk.Context, contractAddr sdk.AccAddress, ibcPort string, msgs []wasmvmtypes.SubMsg) ([]byte, error) {
var rsp []byte
for _, msg := range msgs {
switch msg.ReplyOn {
case wasmvmtypes.ReplySuccess, wasmvmtypes.ReplyError, wasmvmtypes.ReplyAlways, wasmvmtypes.ReplyNever:
default:
return nil, sdkerrors.Wrap(types.ErrInvalid, "replyOn value")
}
// first, we build a sub-context which we can use inside the submessages
subCtx, commit := ctx.CacheContext()
em := sdk.NewEventManager()
subCtx = subCtx.WithEventManager(em)
// check how much gas left locally, optionally wrap the gas meter
gasRemaining := ctx.GasMeter().Limit() - ctx.GasMeter().GasConsumed()
limitGas := msg.GasLimit != nil && (*msg.GasLimit < gasRemaining)
var err error
var events []sdk.Event
var data [][]byte
if limitGas {
events, data, err = d.dispatchMsgWithGasLimit(subCtx, contractAddr, ibcPort, msg.Msg, *msg.GasLimit)
} else {
events, data, err = d.messenger.DispatchMsg(subCtx, contractAddr, ibcPort, msg.Msg)
}
// if it succeeds, commit state changes from submessage, and pass on events to Event Manager
var filteredEvents []sdk.Event
if err == nil {
commit()
filteredEvents = filterEvents(append(em.Events(), events...))
ctx.EventManager().EmitEvents(filteredEvents)
if msg.Msg.Wasm == nil {
filteredEvents = []sdk.Event{}
} else {
for _, e := range filteredEvents {
attributes := e.Attributes
sort.SliceStable(attributes, func(i, j int) bool {
return bytes.Compare(attributes[i].Key, attributes[j].Key) < 0
})
}
}
} // on failure, revert state from sandbox, and ignore events (just skip doing the above)
// we only callback if requested. Short-circuit here the cases we don't want to
if (msg.ReplyOn == wasmvmtypes.ReplySuccess || msg.ReplyOn == wasmvmtypes.ReplyNever) && err != nil {
return nil, err
}
if msg.ReplyOn == wasmvmtypes.ReplyNever || (msg.ReplyOn == wasmvmtypes.ReplyError && err == nil) {
continue
}
// otherwise, we create a SubMsgResult and pass it into the calling contract
var result wasmvmtypes.SubMsgResult
if err == nil {
// just take the first one for now if there are multiple sub-sdk messages
// and safely return nothing if no data
var responseData []byte
if len(data) > 0 {
responseData = data[0]
}
result = wasmvmtypes.SubMsgResult{
Ok: &wasmvmtypes.SubMsgResponse{
Events: sdkEventsToWasmVMEvents(filteredEvents),
Data: responseData,
},
}
} else {
// Issue #759 - we don't return error string for worries of non-determinism
moduleLogger(ctx).Info("Redacting submessage error", "cause", err)
result = wasmvmtypes.SubMsgResult{
Err: redactError(err).Error(),
}
}
// now handle the reply, we use the parent context, and abort on error
reply := wasmvmtypes.Reply{
ID: msg.ID,
Result: result,
}
// we can ignore any result returned as there is nothing to do with the data
// and the events are already in the ctx.EventManager()
rspData, err := d.keeper.reply(ctx, contractAddr, reply)
switch {
case err != nil:
return nil, sdkerrors.Wrap(err, "reply")
case rspData != nil:
rsp = rspData
}
}
return rsp, nil
}
// Issue #759 - we don't return error string for worries of non-determinism
func redactError(err error) error {
// Do not redact system errors
// SystemErrors must be created in x/wasm and we can ensure determinism
if wasmvmtypes.ToSystemError(err) != nil {
return err
}
// FIXME: do we want to hardcode some constant string mappings here as well?
// Or better document them? (SDK error string may change on a patch release to fix wording)
// sdk/11 is out of gas
// sdk/5 is insufficient funds (on bank send)
// (we can theoretically redact less in the future, but this is a first step to safety)
codespace, code, _ := sdkerrors.ABCIInfo(err, false)
return fmt.Errorf("codespace: %s, code: %d", codespace, code)
}
func filterEvents(events []sdk.Event) []sdk.Event {
// pre-allocate space for efficiency
res := make([]sdk.Event, 0, len(events))
for _, ev := range events {
if ev.Type != "message" {
res = append(res, ev)
}
}
return res
}
func sdkEventsToWasmVMEvents(events []sdk.Event) []wasmvmtypes.Event {
res := make([]wasmvmtypes.Event, len(events))
for i, ev := range events {
res[i] = wasmvmtypes.Event{
Type: ev.Type,
Attributes: sdkAttributesToWasmVMAttributes(ev.Attributes),
}
}
return res
}
func sdkAttributesToWasmVMAttributes(attrs []abci.EventAttribute) []wasmvmtypes.EventAttribute {
res := make([]wasmvmtypes.EventAttribute, len(attrs))
for i, attr := range attrs {
res[i] = wasmvmtypes.EventAttribute{
Key: string(attr.Key),
Value: string(attr.Value),
}
}
return res
}