lotus/chain/sync_manager_test.go

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package chain
import (
"context"
"fmt"
"testing"
"time"
"github.com/filecoin-project/lotus/chain/types"
"github.com/filecoin-project/lotus/chain/types/mock"
)
func init() {
BootstrapPeerThreshold = 1
}
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var genTs = mock.TipSet(mock.MkBlock(nil, 0, 0))
type syncOp struct {
ts *types.TipSet
done func()
}
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func runSyncMgrTest(t *testing.T, tname string, thresh int, tf func(*testing.T, *syncManager, chan *syncOp)) {
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syncTargets := make(chan *syncOp)
sm := NewSyncManager(func(ctx context.Context, ts *types.TipSet) error {
ch := make(chan struct{})
syncTargets <- &syncOp{
ts: ts,
done: func() { close(ch) },
}
<-ch
return nil
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}).(*syncManager)
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oldBootstrapPeerThreshold := BootstrapPeerThreshold
BootstrapPeerThreshold = thresh
defer func() {
BootstrapPeerThreshold = oldBootstrapPeerThreshold
}()
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sm.Start()
defer sm.Stop()
t.Run(tname+fmt.Sprintf("-%d", thresh), func(t *testing.T) {
tf(t, sm, syncTargets)
})
}
func assertTsEqual(t *testing.T, actual, expected *types.TipSet) {
t.Helper()
if !actual.Equals(expected) {
t.Fatalf("got unexpected tipset %s (expected: %s)", actual.Cids(), expected.Cids())
}
}
func assertNoOp(t *testing.T, c chan *syncOp) {
t.Helper()
select {
case <-time.After(time.Millisecond * 20):
case <-c:
t.Fatal("shouldnt have gotten any sync operations yet")
}
}
func assertGetSyncOp(t *testing.T, c chan *syncOp, ts *types.TipSet) {
t.Helper()
select {
case <-time.After(time.Millisecond * 100):
t.Fatal("expected sync manager to try and sync to our target")
case op := <-c:
op.done()
if !op.ts.Equals(ts) {
t.Fatalf("somehow got wrong tipset from syncer (got %s, expected %s)", op.ts.Cids(), ts.Cids())
}
}
}
func TestSyncManagerEdgeCase(t *testing.T) {
ctx := context.Background()
a := mock.TipSet(mock.MkBlock(genTs, 1, 1))
t.Logf("a: %s", a)
b1 := mock.TipSet(mock.MkBlock(a, 1, 2))
t.Logf("b1: %s", b1)
b2 := mock.TipSet(mock.MkBlock(a, 2, 3))
t.Logf("b2: %s", b2)
c1 := mock.TipSet(mock.MkBlock(b1, 2, 4))
t.Logf("c1: %s", c1)
c2 := mock.TipSet(mock.MkBlock(b2, 1, 5))
t.Logf("c2: %s", c2)
d1 := mock.TipSet(mock.MkBlock(c1, 1, 6))
t.Logf("d1: %s", d1)
e1 := mock.TipSet(mock.MkBlock(d1, 1, 7))
t.Logf("e1: %s", e1)
runSyncMgrTest(t, "edgeCase", 1, func(t *testing.T, sm *syncManager, stc chan *syncOp) {
sm.SetPeerHead(ctx, "peer1", a)
sm.SetPeerHead(ctx, "peer1", b1)
sm.SetPeerHead(ctx, "peer1", b2)
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assertGetSyncOp(t, stc, a)
// b1 and b2 are in queue after a; the sync manager should pick the heaviest one which is b2
bop := <-stc
if !bop.ts.Equals(b2) {
t.Fatalf("Expected tipset %s to sync, but got %s", b2, bop.ts)
}
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sm.SetPeerHead(ctx, "peer2", c2)
sm.SetPeerHead(ctx, "peer2", c1)
sm.SetPeerHead(ctx, "peer3", b2)
sm.SetPeerHead(ctx, "peer1", a)
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bop.done()
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// get the next sync target; it should be c1 as the heaviest tipset but added last (same weight as c2)
bop = <-stc
if bop.ts.Equals(c2) {
// there's a small race and we might get c2 first.
// But we should still end on c1.
bop.done()
bop = <-stc
}
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if !bop.ts.Equals(c1) {
t.Fatalf("Expected tipset %s to sync, but got %s", c1, bop.ts)
}
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sm.SetPeerHead(ctx, "peer4", d1)
sm.SetPeerHead(ctx, "peer5", e1)
bop.done()
// get the last sync target; it should be e1
var last *types.TipSet
for i := 0; i < 10; {
select {
case bop = <-stc:
bop.done()
if last == nil || bop.ts.Height() > last.Height() {
last = bop.ts
}
default:
i++
time.Sleep(10 * time.Millisecond)
}
}
if !last.Equals(e1) {
t.Fatalf("Expected tipset %s to sync, but got %s", e1, last)
}
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if len(sm.state) != 0 {
t.Errorf("active syncs expected empty but got: %d", len(sm.state))
}
})
}
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func TestSyncManager(t *testing.T) {
ctx := context.Background()
a := mock.TipSet(mock.MkBlock(genTs, 1, 1))
b := mock.TipSet(mock.MkBlock(a, 1, 2))
c1 := mock.TipSet(mock.MkBlock(b, 1, 3))
c2 := mock.TipSet(mock.MkBlock(b, 2, 4))
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c3 := mock.TipSet(mock.MkBlock(b, 3, 5))
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d := mock.TipSet(mock.MkBlock(c1, 4, 5))
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runSyncMgrTest(t, "testBootstrap", 1, func(t *testing.T, sm *syncManager, stc chan *syncOp) {
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sm.SetPeerHead(ctx, "peer1", c1)
assertGetSyncOp(t, stc, c1)
})
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runSyncMgrTest(t, "testBootstrap", 2, func(t *testing.T, sm *syncManager, stc chan *syncOp) {
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sm.SetPeerHead(ctx, "peer1", c1)
assertNoOp(t, stc)
sm.SetPeerHead(ctx, "peer2", c1)
assertGetSyncOp(t, stc, c1)
})
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runSyncMgrTest(t, "testSyncAfterBootstrap", 1, func(t *testing.T, sm *syncManager, stc chan *syncOp) {
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sm.SetPeerHead(ctx, "peer1", b)
assertGetSyncOp(t, stc, b)
sm.SetPeerHead(ctx, "peer2", c1)
assertGetSyncOp(t, stc, c1)
sm.SetPeerHead(ctx, "peer2", c2)
assertGetSyncOp(t, stc, c2)
})
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runSyncMgrTest(t, "testCoalescing", 1, func(t *testing.T, sm *syncManager, stc chan *syncOp) {
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sm.SetPeerHead(ctx, "peer1", a)
assertGetSyncOp(t, stc, a)
sm.SetPeerHead(ctx, "peer2", b)
op := <-stc
sm.SetPeerHead(ctx, "peer2", c1)
sm.SetPeerHead(ctx, "peer2", c2)
sm.SetPeerHead(ctx, "peer2", d)
assertTsEqual(t, op.ts, b)
// need a better way to 'wait until syncmgr is idle'
time.Sleep(time.Millisecond * 20)
op.done()
assertGetSyncOp(t, stc, d)
})
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runSyncMgrTest(t, "testSyncIncomingTipset", 1, func(t *testing.T, sm *syncManager, stc chan *syncOp) {
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sm.SetPeerHead(ctx, "peer1", a)
assertGetSyncOp(t, stc, a)
sm.SetPeerHead(ctx, "peer2", b)
op := <-stc
op.done()
sm.SetPeerHead(ctx, "peer2", c1)
op1 := <-stc
fmt.Println("op1: ", op1.ts.Cids())
sm.SetPeerHead(ctx, "peer2", c2)
sm.SetPeerHead(ctx, "peer2", c3)
op1.done()
op2 := <-stc
fmt.Println("op2: ", op2.ts.Cids())
op2.done()
op3 := <-stc
fmt.Println("op3: ", op3.ts.Cids())
op3.done()
})
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}