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timeout_cache.go
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timeout_cache.go
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package timeoutcollector
import (
"errors"
"sync"
"github.com/onflow/flow-go/consensus/hotstuff/model"
"github.com/onflow/flow-go/model/flow"
)
var (
// ErrRepeatedTimeout is emitted, when we receive an identical timeout object for the same block
// from the same voter multiple times. This error does _not_ indicate
// equivocation.
ErrRepeatedTimeout = errors.New("duplicated timeout")
ErrTimeoutForIncompatibleView = errors.New("timeout for incompatible view")
)
// TimeoutObjectsCache maintains a _concurrency safe_ cache of timeouts for one particular
// view. The cache memorizes the order in which the timeouts were received. Timeouts
// are de-duplicated based on the following rules:
// - For each voter (i.e. SignerID), we store the _first_ timeout t0.
// - For any subsequent timeout t, we check whether t.ID() == t0.ID().
// If this is the case, we consider the timeout a duplicate and drop it.
// If t and t0 have different checksums, the voter is equivocating, and
// we return a model.DoubleTimeoutError.
type TimeoutObjectsCache struct {
lock sync.RWMutex
view uint64
timeouts map[flow.Identifier]*model.TimeoutObject // signerID -> first timeout
}
// NewTimeoutObjectsCache instantiates a TimeoutObjectsCache for the given view
func NewTimeoutObjectsCache(view uint64) *TimeoutObjectsCache {
return &TimeoutObjectsCache{
view: view,
timeouts: make(map[flow.Identifier]*model.TimeoutObject),
}
}
func (vc *TimeoutObjectsCache) View() uint64 { return vc.view }
// AddTimeoutObject stores a timeout in the cache. The following errors are expected during
// normal operations:
// - nil: if the timeout was successfully added
// - model.DoubleTimeoutError is returned if the replica is equivocating
// - RepeatedTimeoutErr is returned when adding an _identical_ timeout for the same view from
// the same voter multiple times.
// - TimeoutForIncompatibleViewError is returned if the timeout is for a different view.
//
// When AddTimeoutObject returns an error, the timeout is _not_ stored.
func (vc *TimeoutObjectsCache) AddTimeoutObject(timeout *model.TimeoutObject) error {
if timeout.View != vc.view {
return ErrTimeoutForIncompatibleView
}
vc.lock.Lock()
// De-duplicated timeouts based on the following rules:
// * For each voter (i.e. SignerID), we store the _first_ t0.
// * For any subsequent timeout t, we check whether t.ID() == t0.ID().
// If this is the case, we consider the timeout a duplicate and drop it.
// If t and t0 have different checksums, the voter is equivocating, and
// we return a model.DoubleTimeoutError.
firstTimeout, exists := vc.timeouts[timeout.SignerID]
if exists {
vc.lock.Unlock()
// TODO: once we have signer indices, implement Equals methods for QC, TC
// and TimeoutObjects, to avoid the comparatively very expensive ID computation.
if firstTimeout.ID() != timeout.ID() {
return model.NewDoubleTimeoutErrorf(firstTimeout, timeout, "detected timeout equivocation by replica %x at view: %d", timeout.SignerID, vc.view)
}
return ErrRepeatedTimeout
}
vc.timeouts[timeout.SignerID] = timeout
vc.lock.Unlock()
return nil
}
// GetTimeoutObject returns the stored timeout for the given `signerID`. Returns:
// - (timeout, true) if a timeout object from signerID is known
// - (nil, false) no timeout object from signerID is known
func (vc *TimeoutObjectsCache) GetTimeoutObject(signerID flow.Identifier) (*model.TimeoutObject, bool) {
vc.lock.RLock()
timeout, exists := vc.timeouts[signerID] // if signerID is unknown, its `Vote` pointer is nil
vc.lock.RUnlock()
return timeout, exists
}
// Size returns the number of cached timeout objects
func (vc *TimeoutObjectsCache) Size() int {
vc.lock.RLock()
s := len(vc.timeouts)
vc.lock.RUnlock()
return s
}
// All returns all currently cached timeout objects. Concurrency safe.
func (vc *TimeoutObjectsCache) All() []*model.TimeoutObject {
vc.lock.RLock()
defer vc.lock.RUnlock()
return vc.all()
}
// all returns all currently cached timeout objects. NOT concurrency safe
func (vc *TimeoutObjectsCache) all() []*model.TimeoutObject {
timeoutObjects := make([]*model.TimeoutObject, 0, len(vc.timeouts))
for _, t := range vc.timeouts {
timeoutObjects = append(timeoutObjects, t)
}
return timeoutObjects
}