swarm/network: fix data race in fetcher_test.go (#18469)

This commit is contained in:
Ferenc Szabo 2019-01-17 16:45:36 +01:00 committed by Anton Evangelatov
parent 4f8ec44565
commit 19bfcbf911
2 changed files with 25 additions and 25 deletions

@ -26,20 +26,23 @@ import (
"github.com/ethereum/go-ethereum/swarm/storage"
)
var searchTimeout = 1 * time.Second
const (
defaultSearchTimeout = 1 * time.Second
// maximum number of forwarded requests (hops), to make sure requests are not
// forwarded forever in peer loops
maxHopCount uint8 = 20
)
// Time to consider peer to be skipped.
// Also used in stream delivery.
var RequestTimeout = 10 * time.Second
var maxHopCount uint8 = 20 // maximum number of forwarded requests (hops), to make sure requests are not forwarded forever in peer loops
type RequestFunc func(context.Context, *Request) (*enode.ID, chan struct{}, error)
// Fetcher is created when a chunk is not found locally. It starts a request handler loop once and
// keeps it alive until all active requests are completed. This can happen:
// 1. either because the chunk is delivered
// 2. or becuse the requestor cancelled/timed out
// 2. or because the requester cancelled/timed out
// Fetcher self destroys itself after it is completed.
// TODO: cancel all forward requests after termination
type Fetcher struct {
@ -47,6 +50,7 @@ type Fetcher struct {
addr storage.Address // the address of the chunk to be fetched
offerC chan *enode.ID // channel of sources (peer node id strings)
requestC chan uint8 // channel for incoming requests (with the hopCount value in it)
searchTimeout time.Duration
skipCheck bool
}
@ -79,7 +83,7 @@ func (r *Request) SkipPeer(nodeID string) bool {
}
t, ok := val.(time.Time)
if ok && time.Now().After(t.Add(RequestTimeout)) {
// deadine expired
// deadline expired
r.peersToSkip.Delete(nodeID)
return false
}
@ -100,9 +104,10 @@ func NewFetcherFactory(request RequestFunc, skipCheck bool) *FetcherFactory {
}
}
// New contructs a new Fetcher, for the given chunk. All peers in peersToSkip are not requested to
// deliver the given chunk. peersToSkip should always contain the peers which are actively requesting
// this chunk, to make sure we don't request back the chunks from them.
// New constructs a new Fetcher, for the given chunk. All peers in peersToSkip
// are not requested to deliver the given chunk. peersToSkip should always
// contain the peers which are actively requesting this chunk, to make sure we
// don't request back the chunks from them.
// The created Fetcher is started and returned.
func (f *FetcherFactory) New(ctx context.Context, source storage.Address, peersToSkip *sync.Map) storage.NetFetcher {
fetcher := NewFetcher(source, f.request, f.skipCheck)
@ -117,6 +122,7 @@ func NewFetcher(addr storage.Address, rf RequestFunc, skipCheck bool) *Fetcher {
protoRequestFunc: rf,
offerC: make(chan *enode.ID),
requestC: make(chan uint8),
searchTimeout: defaultSearchTimeout,
skipCheck: skipCheck,
}
}
@ -176,7 +182,7 @@ func (f *Fetcher) run(ctx context.Context, peers *sync.Map) {
// loop that keeps the fetching process alive
// after every request a timer is set. If this goes off we request again from another peer
// note that the previous request is still alive and has the chance to deliver, so
// rerequesting extends the search. ie.,
// requesting again extends the search. ie.,
// if a peer we requested from is gone we issue a new request, so the number of active
// requests never decreases
for {
@ -209,13 +215,13 @@ func (f *Fetcher) run(ctx context.Context, peers *sync.Map) {
// search timeout: too much time passed since the last request,
// extend the search to a new peer if we can find one
case <-waitC:
log.Trace("search timed out: rerequesting", "request addr", f.addr)
log.Trace("search timed out: requesting", "request addr", f.addr)
doRequest = requested
// all Fetcher context closed, can quit
case <-ctx.Done():
log.Trace("terminate fetcher", "request addr", f.addr)
// TODO: send cancelations to all peers left over in peers map (i.e., those we requested from)
// TODO: send cancellations to all peers left over in peers map (i.e., those we requested from)
return
}
@ -231,7 +237,7 @@ func (f *Fetcher) run(ctx context.Context, peers *sync.Map) {
// if wait channel is not set, set it to a timer
if requested {
if wait == nil {
wait = time.NewTimer(searchTimeout)
wait = time.NewTimer(f.searchTimeout)
defer wait.Stop()
waitC = wait.C
} else {
@ -242,8 +248,8 @@ func (f *Fetcher) run(ctx context.Context, peers *sync.Map) {
default:
}
}
// reset the timer to go off after searchTimeout
wait.Reset(searchTimeout)
// reset the timer to go off after defaultSearchTimeout
wait.Reset(f.searchTimeout)
}
}
doRequest = false

@ -284,15 +284,11 @@ func TestFetcherRetryOnTimeout(t *testing.T) {
requester := newMockRequester()
addr := make([]byte, 32)
fetcher := NewFetcher(addr, requester.doRequest, true)
// set searchTimeOut to low value so the test is quicker
fetcher.searchTimeout = 250 * time.Millisecond
peersToSkip := &sync.Map{}
// set searchTimeOut to low value so the test is quicker
defer func(t time.Duration) {
searchTimeout = t
}(searchTimeout)
searchTimeout = 250 * time.Millisecond
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
@ -359,11 +355,9 @@ func TestFetcherRequestQuitRetriesRequest(t *testing.T) {
addr := make([]byte, 32)
fetcher := NewFetcher(addr, requester.doRequest, true)
// make sure searchTimeout is long so it is sure the request is not retried because of timeout
defer func(t time.Duration) {
searchTimeout = t
}(searchTimeout)
searchTimeout = 10 * time.Second
// make sure the searchTimeout is long so it is sure the request is not
// retried because of timeout
fetcher.searchTimeout = 10 * time.Second
peersToSkip := &sync.Map{}