lotus/node/impl/full/actor_events.go

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package full
import (
"context"
"fmt"
"time"
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"github.com/ipfs/go-cid"
"github.com/raulk/clock"
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"go.uber.org/fx"
"github.com/filecoin-project/go-address"
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"github.com/filecoin-project/go-state-types/abi"
"github.com/filecoin-project/lotus/api"
"github.com/filecoin-project/lotus/chain/events/filter"
"github.com/filecoin-project/lotus/chain/types"
)
type ActorEventAPI interface {
GetActorEventsRaw(ctx context.Context, filter *types.ActorEventFilter) ([]*types.ActorEvent, error)
SubscribeActorEventsRaw(ctx context.Context, filter *types.ActorEventFilter) (<-chan *types.ActorEvent, error)
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}
var (
_ ActorEventAPI = *new(api.FullNode)
_ ActorEventAPI = *new(api.Gateway)
)
type ChainAccessor interface {
GetHeaviestTipSet() *types.TipSet
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}
type EventFilterManager interface {
Install(
ctx context.Context,
minHeight, maxHeight abi.ChainEpoch,
tipsetCid cid.Cid,
addresses []address.Address,
keysWithCodec map[string][]types.ActorEventBlock,
excludeReverted bool,
) (filter.EventFilter, error)
Remove(ctx context.Context, id types.FilterID) error
}
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type ActorEventsAPI struct {
fx.In
ActorEventAPI
}
type ActorEventHandler struct {
chain ChainAccessor
eventFilterManager EventFilterManager
blockDelay time.Duration
maxFilterHeightRange abi.ChainEpoch
clock clock.Clock
}
var _ ActorEventAPI = (*ActorEventHandler)(nil)
func NewActorEventHandler(
chain ChainAccessor,
eventFilterManager EventFilterManager,
blockDelay time.Duration,
maxFilterHeightRange abi.ChainEpoch,
) *ActorEventHandler {
return &ActorEventHandler{
chain: chain,
eventFilterManager: eventFilterManager,
blockDelay: blockDelay,
maxFilterHeightRange: maxFilterHeightRange,
clock: clock.New(),
}
}
func NewActorEventHandlerWithClock(
chain ChainAccessor,
eventFilterManager EventFilterManager,
blockDelay time.Duration,
maxFilterHeightRange abi.ChainEpoch,
clock clock.Clock,
) *ActorEventHandler {
return &ActorEventHandler{
chain: chain,
eventFilterManager: eventFilterManager,
blockDelay: blockDelay,
maxFilterHeightRange: maxFilterHeightRange,
clock: clock,
}
}
func (a *ActorEventHandler) GetActorEventsRaw(ctx context.Context, evtFilter *types.ActorEventFilter) ([]*types.ActorEvent, error) {
if a.eventFilterManager == nil {
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return nil, api.ErrNotSupported
}
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if evtFilter == nil {
evtFilter = &types.ActorEventFilter{}
}
params, err := a.parseFilter(*evtFilter)
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if err != nil {
return nil, err
}
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// Install a filter just for this call, collect events, remove the filter
tipSetCid, err := params.GetTipSetCid()
if err != nil {
return nil, fmt.Errorf("failed to get tipset cid: %w", err)
}
f, err := a.eventFilterManager.Install(ctx, params.MinHeight, params.MaxHeight, tipSetCid, evtFilter.Addresses, evtFilter.Fields, false)
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if err != nil {
return nil, err
}
defer func() {
// Remove the temporary filter regardless of the original context.
if err := a.eventFilterManager.Remove(context.Background(), f.ID()); err != nil {
log.Warnf("failed to remove filter: %s", err)
}
}()
return getCollected(ctx, f), nil
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}
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type filterParams struct {
MinHeight abi.ChainEpoch
MaxHeight abi.ChainEpoch
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TipSetKey types.TipSetKey
}
func (fp filterParams) GetTipSetCid() (cid.Cid, error) {
if fp.TipSetKey.IsEmpty() {
return cid.Undef, nil
}
return fp.TipSetKey.Cid()
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}
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func (a *ActorEventHandler) parseFilter(f types.ActorEventFilter) (*filterParams, error) {
if f.TipSetKey != nil && !f.TipSetKey.IsEmpty() {
if f.FromHeight != nil || f.ToHeight != nil {
return nil, fmt.Errorf("cannot specify both TipSetKey and FromHeight/ToHeight")
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}
return &filterParams{
MinHeight: 0,
MaxHeight: 0,
TipSetKey: *f.TipSetKey,
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}, nil
}
min, max, err := parseHeightRange(a.chain.GetHeaviestTipSet().Height(), f.FromHeight, f.ToHeight, a.maxFilterHeightRange)
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if err != nil {
return nil, err
}
return &filterParams{
MinHeight: min,
MaxHeight: max,
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TipSetKey: types.EmptyTSK,
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}, nil
}
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// parseHeightRange is similar to eth's parseBlockRange but with slightly different semantics but
// results in equivalent values that we can plug in to the EventFilterManager.
//
// * Uses "height", allowing for nillable values rather than strings
// * No "latest" and "earliest", those are now represented by nil on the way in and -1 on the way out
// * No option for hex representation
func parseHeightRange(heaviest abi.ChainEpoch, fromHeight, toHeight *abi.ChainEpoch, maxRange abi.ChainEpoch) (minHeight abi.ChainEpoch, maxHeight abi.ChainEpoch, err error) {
if fromHeight != nil && *fromHeight < 0 {
return 0, 0, fmt.Errorf("range 'from' must be greater than or equal to 0")
}
if fromHeight == nil {
minHeight = -1
} else {
minHeight = *fromHeight
}
if toHeight == nil {
maxHeight = -1
} else {
maxHeight = *toHeight
}
// Validate height ranges are within limits set by node operator
if minHeight == -1 && maxHeight > 0 {
// Here the client is looking for events between the head and some future height
if maxHeight-heaviest > maxRange {
return 0, 0, fmt.Errorf("invalid epoch range: 'to' height is too far in the future (maximum: %d)", maxRange)
}
} else if minHeight >= 0 && maxHeight == -1 {
// Here the client is looking for events between some time in the past and the current head
if heaviest-minHeight > maxRange {
return 0, 0, fmt.Errorf("invalid epoch range: 'from' height is too far in the past (maximum: %d)", maxRange)
}
} else if minHeight >= 0 && maxHeight >= 0 {
if minHeight > maxHeight {
return 0, 0, fmt.Errorf("invalid epoch range: 'to' height (%d) must be after 'from' height (%d)", minHeight, maxHeight)
} else if maxHeight-minHeight > maxRange {
return 0, 0, fmt.Errorf("invalid epoch range: range between to and 'from' heights is too large (maximum: %d)", maxRange)
}
}
return minHeight, maxHeight, nil
}
func (a *ActorEventHandler) SubscribeActorEventsRaw(ctx context.Context, evtFilter *types.ActorEventFilter) (<-chan *types.ActorEvent, error) {
if a.eventFilterManager == nil {
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return nil, api.ErrNotSupported
}
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if evtFilter == nil {
evtFilter = &types.ActorEventFilter{}
}
params, err := a.parseFilter(*evtFilter)
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if err != nil {
return nil, err
}
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tipSetCid, err := params.GetTipSetCid()
if err != nil {
return nil, fmt.Errorf("failed to get tipset cid: %w", err)
}
fm, err := a.eventFilterManager.Install(ctx, params.MinHeight, params.MaxHeight, tipSetCid, evtFilter.Addresses, evtFilter.Fields, false)
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if err != nil {
return nil, err
}
// The goal for the code below is to send events on the `out` channel as fast as possible and not
// let it get too far behind the rate at which the events are generated.
// For historical events, we aim to send all events within a single block's time (30s on mainnet).
// This ensures that the client can catch up quickly enough to start receiving new events.
// For ongoing events, we also aim to send all events within a single block's time, so we never
// want to be buffering events (approximately) more than one epoch behind the current head.
// It's approximate because we only update our notion of "current epoch" once per ~blocktime.
out := make(chan *types.ActorEvent)
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// When we start sending real-time events, we want to make sure that we don't fall behind more
// than one epoch's worth of events (approximately). Capture this value now, before we send
// historical events to allow for a little bit of slack in the historical event sending.
minBacklogHeight := a.chain.GetHeaviestTipSet().Height() - 1
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go func() {
defer func() {
// tell the caller we're done
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close(out)
fm.ClearSubChannel()
if err := a.eventFilterManager.Remove(ctx, fm.ID()); err != nil {
log.Warnf("failed to remove filter: %s", err)
}
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}()
// Handle any historical events that our filter may have picked up -----------------------------
evs := getCollected(ctx, fm)
if len(evs) > 0 {
// ensure we get all events out on the channel within one block's time (30s on mainnet)
timer := a.clock.Timer(a.blockDelay)
for _, ev := range evs {
select {
case out <- ev:
case <-timer.C:
log.Errorf("closing event subscription due to slow event sending rate")
timer.Stop()
return
case <-ctx.Done():
timer.Stop()
return
}
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}
timer.Stop()
}
// for the case where we have a MaxHeight set, we don't get a signal from the filter when we
// reach that height, so we need to check it ourselves, do it now but also in the loop
if params.MaxHeight > 0 && minBacklogHeight+1 >= params.MaxHeight {
return
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}
// Handle ongoing events from the filter -------------------------------------------------------
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in := make(chan interface{}, 256)
fm.SetSubChannel(in)
var buffer []*types.ActorEvent
nextBacklogHeightUpdate := a.clock.Now().Add(a.blockDelay)
collectEvent := func(ev interface{}) bool {
ce, ok := ev.(*filter.CollectedEvent)
if !ok {
log.Errorf("got unexpected value from event filter: %T", ev)
return false
}
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if ce.Height < minBacklogHeight {
// since we mostly care about buffer size, we only trigger a too-slow close when the buffer
// increases, i.e. we collect a new event
log.Errorf("closing event subscription due to slow event sending rate")
return false
}
buffer = append(buffer, &types.ActorEvent{
Entries: ce.Entries,
Emitter: ce.EmitterAddr,
Reverted: ce.Reverted,
Height: ce.Height,
TipSetKey: ce.TipSetKey,
MsgCid: ce.MsgCid,
})
return true
}
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ticker := a.clock.Ticker(a.blockDelay)
defer ticker.Stop()
for ctx.Err() == nil {
if len(buffer) > 0 {
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select {
case ev, ok := <-in: // incoming event
if !ok || !collectEvent(ev) {
return
}
case out <- buffer[0]: // successful send
buffer[0] = nil
buffer = buffer[1:]
case <-ticker.C:
// check that our backlog isn't too big by looking at the oldest event
if buffer[0].Height < minBacklogHeight {
log.Errorf("closing event subscription due to slow event sending rate")
return
}
case <-ctx.Done():
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return
}
} else {
select {
case ev, ok := <-in: // incoming event
if !ok || !collectEvent(ev) {
return
}
case <-ctx.Done():
return
case <-ticker.C:
currentHeight := a.chain.GetHeaviestTipSet().Height()
if params.MaxHeight > 0 && currentHeight > params.MaxHeight {
// we've reached the filter's MaxHeight, we're done so we can close the channel
return
}
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}
}
if a.clock.Now().After(nextBacklogHeightUpdate) {
minBacklogHeight = a.chain.GetHeaviestTipSet().Height() - 1
nextBacklogHeightUpdate = a.clock.Now().Add(a.blockDelay)
}
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}
}()
return out, nil
}
func getCollected(ctx context.Context, f filter.EventFilter) []*types.ActorEvent {
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ces := f.TakeCollectedEvents(ctx)
var out []*types.ActorEvent
for _, e := range ces {
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out = append(out, &types.ActorEvent{
Entries: e.Entries,
Emitter: e.EmitterAddr,
Reverted: e.Reverted,
Height: e.Height,
TipSetKey: e.TipSetKey,
MsgCid: e.MsgCid,
})
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}
return out
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}