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package v1
import (
"fmt"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/tendermint/tendermint/libs/log"
tmmath "github.com/tendermint/tendermint/libs/math"
tmrand "github.com/tendermint/tendermint/libs/rand"
"github.com/tendermint/tendermint/p2p"
"github.com/tendermint/tendermint/types"
)
type lastBlockRequestT struct {
peerID p2p.ID
height int64
}
type lastPeerErrorT struct {
peerID p2p.ID
err error
}
// reactor for FSM testing
type testReactor struct {
logger log.Logger
fsm *BcReactorFSM
numStatusRequests int
numBlockRequests int
lastBlockRequest lastBlockRequestT
lastPeerError lastPeerErrorT
stateTimerStarts map[string]int
}
func sendEventToFSM(fsm *BcReactorFSM, ev bReactorEvent, data bReactorEventData) error {
return fsm.Handle(&bcReactorMessage{event: ev, data: data})
}
type fsmStepTestValues struct {
currentState string
event bReactorEvent
data bReactorEventData
wantErr error
wantState string
wantStatusReqSent bool
wantReqIncreased bool
wantNewBlocks []int64
wantRemovedPeers []p2p.ID
}
// ---------------------------------------------------------------------------
// helper test function for different FSM events, state and expected behavior
func sStopFSMEv(current, expected string) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: stopFSMEv,
wantState: expected,
wantErr: errNoErrorFinished}
}
func sUnknownFSMEv(current string) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: 1234,
wantState: current,
wantErr: errInvalidEvent}
}
func sStartFSMEv() fsmStepTestValues {
return fsmStepTestValues{
currentState: "unknown",
event: startFSMEv,
wantState: "waitForPeer",
wantStatusReqSent: true}
}
func sStateTimeoutEv(current, expected string, timedoutState string, wantErr error) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: stateTimeoutEv,
data: bReactorEventData{
stateName: timedoutState,
},
wantState: expected,
wantErr: wantErr,
}
}
func sProcessedBlockEv(current, expected string, reactorError error) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: processedBlockEv,
data: bReactorEventData{
err: reactorError,
},
wantState: expected,
wantErr: reactorError,
}
}
func sNoBlockResponseEv(current, expected string, peerID p2p.ID, height int64, err error) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: noBlockResponseEv,
data: bReactorEventData{
peerID: peerID,
height: height,
},
wantState: expected,
wantErr: err,
}
}
func sStatusEv(current, expected string, peerID p2p.ID, height int64, err error) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: statusResponseEv,
data: bReactorEventData{peerID: peerID, height: height},
wantState: expected,
wantErr: err}
}
func sMakeRequestsEv(current, expected string, maxPendingRequests int) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: makeRequestsEv,
data: bReactorEventData{maxNumRequests: maxPendingRequests},
wantState: expected,
wantReqIncreased: true,
}
}
func sMakeRequestsEvErrored(current, expected string,
maxPendingRequests int, err error, peersRemoved []p2p.ID) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: makeRequestsEv,
data: bReactorEventData{maxNumRequests: maxPendingRequests},
wantState: expected,
wantErr: err,
wantRemovedPeers: peersRemoved,
wantReqIncreased: true,
}
}
func sBlockRespEv(current, expected string, peerID p2p.ID, height int64, prevBlocks []int64) fsmStepTestValues {
txs := []types.Tx{types.Tx("foo"), types.Tx("bar")}
return fsmStepTestValues{
currentState: current,
event: blockResponseEv,
data: bReactorEventData{
peerID: peerID,
height: height,
block: types.MakeBlock(height, txs, nil, nil),
length: 100},
wantState: expected,
wantNewBlocks: append(prevBlocks, height),
}
}
func sBlockRespEvErrored(current, expected string,
peerID p2p.ID, height int64, prevBlocks []int64, wantErr error, peersRemoved []p2p.ID) fsmStepTestValues {
txs := []types.Tx{types.Tx("foo"), types.Tx("bar")}
return fsmStepTestValues{
currentState: current,
event: blockResponseEv,
data: bReactorEventData{
peerID: peerID,
height: height,
block: types.MakeBlock(height, txs, nil, nil),
length: 100},
wantState: expected,
wantErr: wantErr,
wantRemovedPeers: peersRemoved,
wantNewBlocks: prevBlocks,
}
}
func sPeerRemoveEv(current, expected string, peerID p2p.ID, err error, peersRemoved []p2p.ID) fsmStepTestValues {
return fsmStepTestValues{
currentState: current,
event: peerRemoveEv,
data: bReactorEventData{
peerID: peerID,
err: err,
},
wantState: expected,
wantRemovedPeers: peersRemoved,
}
}
// --------------------------------------------
func newTestReactor(height int64) *testReactor {
testBcR := &testReactor{logger: log.TestingLogger(), stateTimerStarts: make(map[string]int)}
testBcR.fsm = NewFSM(height, testBcR)
testBcR.fsm.SetLogger(testBcR.logger)
return testBcR
}
func fixBlockResponseEvStep(step *fsmStepTestValues, testBcR *testReactor) {
// There is currently no good way to know to which peer a block request was sent.
// So in some cases where it does not matter, before we simulate a block response
// we cheat and look where it is expected from.
if step.event == blockResponseEv {
height := step.data.height
peerID, ok := testBcR.fsm.pool.blocks[height]
if ok {
step.data.peerID = peerID
}
}
}
type testFields struct {
name string
startingHeight int64
maxRequestsPerPeer int
maxPendingRequests int
steps []fsmStepTestValues
}
func executeFSMTests(t *testing.T, tests []testFields, matchRespToReq bool) {
for _, tt := range tests {
tt := tt
t.Run(tt.name, func(t *testing.T) {
// Create test reactor
testBcR := newTestReactor(tt.startingHeight)
if tt.maxRequestsPerPeer != 0 {
maxRequestsPerPeer = tt.maxRequestsPerPeer
}
for _, step := range tt.steps {
step := step
assert.Equal(t, step.currentState, testBcR.fsm.state.name)
var heightBefore int64
if step.event == processedBlockEv && step.data.err == errBlockVerificationFailure {
heightBefore = testBcR.fsm.pool.Height
}
oldNumStatusRequests := testBcR.numStatusRequests
oldNumBlockRequests := testBcR.numBlockRequests
if matchRespToReq {
fixBlockResponseEvStep(&step, testBcR)
}
fsmErr := sendEventToFSM(testBcR.fsm, step.event, step.data)
assert.Equal(t, step.wantErr, fsmErr)
if step.wantStatusReqSent {
assert.Equal(t, oldNumStatusRequests+1, testBcR.numStatusRequests)
} else {
assert.Equal(t, oldNumStatusRequests, testBcR.numStatusRequests)
}
if step.wantReqIncreased {
assert.True(t, oldNumBlockRequests < testBcR.numBlockRequests)
} else {
assert.Equal(t, oldNumBlockRequests, testBcR.numBlockRequests)
}
for _, height := range step.wantNewBlocks {
_, err := testBcR.fsm.pool.BlockAndPeerAtHeight(height)
assert.Nil(t, err)
}
if step.event == processedBlockEv && step.data.err == errBlockVerificationFailure {
heightAfter := testBcR.fsm.pool.Height
assert.Equal(t, heightBefore, heightAfter)
firstAfter, err1 := testBcR.fsm.pool.BlockAndPeerAtHeight(testBcR.fsm.pool.Height)
secondAfter, err2 := testBcR.fsm.pool.BlockAndPeerAtHeight(testBcR.fsm.pool.Height + 1)
assert.NotNil(t, err1)
assert.NotNil(t, err2)
assert.Nil(t, firstAfter)
assert.Nil(t, secondAfter)
}
assert.Equal(t, step.wantState, testBcR.fsm.state.name)
if step.wantState == "finished" {
assert.True(t, testBcR.fsm.isCaughtUp())
}
}
})
}
}
func TestFSMBasic(t *testing.T) {
tests := []testFields{
{
name: "one block, one peer - TS2",
startingHeight: 1,
maxRequestsPerPeer: 2,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 2, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 1, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 2, []int64{1}),
sProcessedBlockEv("waitForBlock", "finished", nil),
},
},
{
name: "multi block, multi peer - TS2",
startingHeight: 1,
maxRequestsPerPeer: 2,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 4, nil),
sStatusEv("waitForBlock", "waitForBlock", "P2", 4, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 1, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 2, []int64{1}),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 3, []int64{1, 2}),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 4, []int64{1, 2, 3}),
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
sProcessedBlockEv("waitForBlock", "finished", nil),
},
},
}
executeFSMTests(t, tests, true)
}
func TestFSMBlockVerificationFailure(t *testing.T) {
tests := []testFields{
{
name: "block verification failure - TS2 variant",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1 and get blocks 1-3 from it
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 1, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 2, []int64{1}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 3, []int64{1, 2}),
// add P2
sStatusEv("waitForBlock", "waitForBlock", "P2", 3, nil),
// process block failure, should remove P1 and all blocks
sProcessedBlockEv("waitForBlock", "waitForBlock", errBlockVerificationFailure),
// get blocks 1-3 from P2
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 1, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 2, []int64{1}),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 3, []int64{1, 2}),
// finish after processing blocks 1 and 2
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
sProcessedBlockEv("waitForBlock", "finished", nil),
},
},
}
executeFSMTests(t, tests, false)
}
func TestFSMNoBlockResponse(t *testing.T) {
tests := []testFields{
{
name: "no block response",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1 and get blocks 1-3 from it
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 1, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 2, []int64{1}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 3, []int64{1, 2}),
// add P2
sStatusEv("waitForBlock", "waitForBlock", "P2", 3, nil),
// process block failure, should remove P1 and all blocks
sNoBlockResponseEv("waitForBlock", "waitForBlock", "P1", 1, nil),
sNoBlockResponseEv("waitForBlock", "waitForBlock", "P1", 2, nil),
sNoBlockResponseEv("waitForBlock", "waitForBlock", "P1", 3, nil),
// get blocks 1-3 from P2
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 1, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 2, []int64{1}),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 3, []int64{1, 2}),
// finish after processing blocks 1 and 2
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
sProcessedBlockEv("waitForBlock", "finished", nil),
},
},
}
executeFSMTests(t, tests, false)
}
func TestFSMBadBlockFromPeer(t *testing.T) {
tests := []testFields{
{
name: "block we haven't asked for",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1 and ask for blocks 1-3
sStatusEv("waitForPeer", "waitForBlock", "P1", 300, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
// blockResponseEv for height 100 should cause an error
sBlockRespEvErrored("waitForBlock", "waitForPeer",
"P1", 100, []int64{}, errMissingBlock, []p2p.ID{}),
},
},
{
name: "block we already have",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1 and get block 1
sStatusEv("waitForPeer", "waitForBlock", "P1", 100, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock",
"P1", 1, []int64{}),
// Get block 1 again. Since peer is removed together with block 1,
// the blocks present in the pool should be {}
sBlockRespEvErrored("waitForBlock", "waitForPeer",
"P1", 1, []int64{}, errDuplicateBlock, []p2p.ID{"P1"}),
},
},
{
name: "block from unknown peer",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1 and get block 1
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
// get block 1 from unknown peer P2
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEvErrored("waitForBlock", "waitForBlock",
"P2", 1, []int64{}, errBadDataFromPeer, []p2p.ID{"P2"}),
},
},
{
name: "block from wrong peer",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1, make requests for blocks 1-3 to P1
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
// add P2
sStatusEv("waitForBlock", "waitForBlock", "P2", 3, nil),
// receive block 1 from P2
sBlockRespEvErrored("waitForBlock", "waitForBlock",
"P2", 1, []int64{}, errBadDataFromPeer, []p2p.ID{"P2"}),
},
},
}
executeFSMTests(t, tests, false)
}
func TestFSMBlockAtCurrentHeightDoesNotArriveInTime(t *testing.T) {
tests := []testFields{
{
name: "block at current height undelivered - TS5",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1, get blocks 1 and 2, process block 1
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock",
"P1", 1, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock",
"P1", 2, []int64{1}),
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
// add P2
sStatusEv("waitForBlock", "waitForBlock", "P2", 3, nil),
// timeout on block 3, P1 should be removed
sStateTimeoutEv("waitForBlock", "waitForBlock", "waitForBlock", errNoPeerResponseForCurrentHeights),
// make requests and finish by receiving blocks 2 and 3 from P2
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 2, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P2", 3, []int64{2}),
sProcessedBlockEv("waitForBlock", "finished", nil),
},
},
{
name: "block at current height undelivered, at maxPeerHeight after peer removal - TS3",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1, request blocks 1-3 from P1
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
// add P2 (tallest)
sStatusEv("waitForBlock", "waitForBlock", "P2", 30, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
// receive blocks 1-3 from P1
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 1, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 2, []int64{1}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 3, []int64{1, 2}),
// process blocks at heights 1 and 2
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
// timeout on block at height 4
sStateTimeoutEv("waitForBlock", "finished", "waitForBlock", nil),
},
},
}
executeFSMTests(t, tests, true)
}
func TestFSMPeerRelatedEvents(t *testing.T) {
tests := []testFields{
{
name: "peer remove event with no blocks",
startingHeight: 1,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1, P2, P3
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sStatusEv("waitForBlock", "waitForBlock", "P2", 3, nil),
sStatusEv("waitForBlock", "waitForBlock", "P3", 3, nil),
// switch removes P2
sPeerRemoveEv("waitForBlock", "waitForBlock", "P2", errSwitchRemovesPeer, []p2p.ID{"P2"}),
},
},
{
name: "only peer removed while in waitForBlock state",
startingHeight: 100,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1
sStatusEv("waitForPeer", "waitForBlock", "P1", 200, nil),
// switch removes P1
sPeerRemoveEv("waitForBlock", "waitForPeer", "P1", errSwitchRemovesPeer, []p2p.ID{"P1"}),
},
},
{
name: "highest peer removed while in waitForBlock state, node reaches maxPeerHeight - TS4 ",
startingHeight: 100,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1 and make requests
sStatusEv("waitForPeer", "waitForBlock", "P1", 101, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
// add P2
sStatusEv("waitForBlock", "waitForBlock", "P2", 200, nil),
// get blocks 100 and 101 from P1 and process block at height 100
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 100, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 101, []int64{100}),
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
// switch removes peer P1, should be finished
sPeerRemoveEv("waitForBlock", "finished", "P2", errSwitchRemovesPeer, []p2p.ID{"P2"}),
},
},
{
name: "highest peer lowers its height in waitForBlock state, node reaches maxPeerHeight - TS4",
startingHeight: 100,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1 and make requests
sStatusEv("waitForPeer", "waitForBlock", "P1", 101, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
// add P2
sStatusEv("waitForBlock", "waitForBlock", "P2", 200, nil),
// get blocks 100 and 101 from P1
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 100, []int64{}),
sBlockRespEv("waitForBlock", "waitForBlock", "P1", 101, []int64{100}),
// processed block at heights 100
sProcessedBlockEv("waitForBlock", "waitForBlock", nil),
// P2 becomes short
sStatusEv("waitForBlock", "finished", "P2", 100, errPeerLowersItsHeight),
},
},
{
name: "new short peer while in waitForPeer state",
startingHeight: 100,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForPeer", "P1", 3, errPeerTooShort),
},
},
{
name: "new short peer while in waitForBlock state",
startingHeight: 100,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 200, nil),
sStatusEv("waitForBlock", "waitForBlock", "P2", 3, errPeerTooShort),
},
},
{
name: "only peer updated with low height while in waitForBlock state",
startingHeight: 100,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 200, nil),
sStatusEv("waitForBlock", "waitForPeer", "P1", 3, errPeerLowersItsHeight),
},
},
{
name: "peer does not exist in the switch",
startingHeight: 9999999,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
// add P1
sStatusEv("waitForPeer", "waitForBlock", "P1", 20000000, nil),
// send request for block 9999999
// Note: For this block request the "switch missing the peer" error is simulated,
// see implementation of bcReactor interface, sendBlockRequest(), in this file.
sMakeRequestsEvErrored("waitForBlock", "waitForBlock",
maxNumRequests, nil, []p2p.ID{"P1"}),
},
},
}
executeFSMTests(t, tests, true)
}
func TestFSMStopFSM(t *testing.T) {
tests := []testFields{
{
name: "stopFSMEv in unknown",
steps: []fsmStepTestValues{
sStopFSMEv("unknown", "finished"),
},
},
{
name: "stopFSMEv in waitForPeer",
startingHeight: 1,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStopFSMEv("waitForPeer", "finished"),
},
},
{
name: "stopFSMEv in waitForBlock",
startingHeight: 1,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sStopFSMEv("waitForBlock", "finished"),
},
},
}
executeFSMTests(t, tests, false)
}
func TestFSMUnknownElements(t *testing.T) {
tests := []testFields{
{
name: "unknown event for state unknown",
steps: []fsmStepTestValues{
sUnknownFSMEv("unknown"),
},
},
{
name: "unknown event for state waitForPeer",
steps: []fsmStepTestValues{
sStartFSMEv(),
sUnknownFSMEv("waitForPeer"),
},
},
{
name: "unknown event for state waitForBlock",
startingHeight: 1,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sUnknownFSMEv("waitForBlock"),
},
},
}
executeFSMTests(t, tests, false)
}
func TestFSMPeerStateTimeoutEvent(t *testing.T) {
tests := []testFields{
{
name: "timeout event for state waitForPeer while in state waitForPeer - TS1",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStateTimeoutEv("waitForPeer", "finished", "waitForPeer", errNoTallerPeer),
},
},
{
name: "timeout event for state waitForPeer while in a state != waitForPeer",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStateTimeoutEv("waitForPeer", "waitForPeer", "waitForBlock", errTimeoutEventWrongState),
},
},
{
name: "timeout event for state waitForBlock while in state waitForBlock ",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sStateTimeoutEv("waitForBlock", "waitForPeer", "waitForBlock", errNoPeerResponseForCurrentHeights),
},
},
{
name: "timeout event for state waitForBlock while in a state != waitForBlock",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sStateTimeoutEv("waitForBlock", "waitForBlock", "waitForPeer", errTimeoutEventWrongState),
},
},
{
name: "timeout event for state waitForBlock with multiple peers",
startingHeight: 1,
maxRequestsPerPeer: 3,
steps: []fsmStepTestValues{
sStartFSMEv(),
sStatusEv("waitForPeer", "waitForBlock", "P1", 3, nil),
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
sStatusEv("waitForBlock", "waitForBlock", "P2", 3, nil),
sStateTimeoutEv("waitForBlock", "waitForBlock", "waitForBlock", errNoPeerResponseForCurrentHeights),
},
},
}
executeFSMTests(t, tests, false)
}
func makeCorrectTransitionSequence(startingHeight int64, numBlocks int64, numPeers int, randomPeerHeights bool,
maxRequestsPerPeer int, maxPendingRequests int) testFields {
// Generate numPeers peers with random or numBlocks heights according to the randomPeerHeights flag.
peerHeights := make([]int64, numPeers)
for i := 0; i < numPeers; i++ {
if i == 0 {
peerHeights[0] = numBlocks
continue
}
if randomPeerHeights {
peerHeights[i] = int64(tmmath.MaxInt(tmrand.Intn(int(numBlocks)), int(startingHeight)+1))
} else {
peerHeights[i] = numBlocks
}
}
// Approximate the slice capacity to save time for appends.
testSteps := make([]fsmStepTestValues, 0, 3*numBlocks+int64(numPeers))
testName := fmt.Sprintf("%v-blocks %v-startingHeight %v-peers %v-maxRequestsPerPeer %v-maxNumRequests",
numBlocks, startingHeight, numPeers, maxRequestsPerPeer, maxPendingRequests)
// Add startFSMEv step.
testSteps = append(testSteps, sStartFSMEv())
// For each peer, add statusResponseEv step.
for i := 0; i < numPeers; i++ {
peerName := fmt.Sprintf("P%d", i)
if i == 0 {
testSteps = append(
testSteps,
sStatusEv("waitForPeer", "waitForBlock", p2p.ID(peerName), peerHeights[i], nil))
} else {
testSteps = append(testSteps,
sStatusEv("waitForBlock", "waitForBlock", p2p.ID(peerName), peerHeights[i], nil))
}
}
height := startingHeight
numBlocksReceived := 0
prevBlocks := make([]int64, 0, maxPendingRequests)
forLoop:
for i := 0; i < int(numBlocks); i++ {
// Add the makeRequestEv step periodically.
if i%maxRequestsPerPeer == 0 {
testSteps = append(
testSteps,
sMakeRequestsEv("waitForBlock", "waitForBlock", maxNumRequests),
)
}
// Add the blockRespEv step
testSteps = append(
testSteps,
sBlockRespEv("waitForBlock", "waitForBlock",
"P0", height, prevBlocks))
prevBlocks = append(prevBlocks, height)
height++
numBlocksReceived++
// Add the processedBlockEv step periodically.
if numBlocksReceived >= maxRequestsPerPeer || height >= numBlocks {
for j := int(height) - numBlocksReceived; j < int(height); j++ {
if j >= int(numBlocks) {
// This is the last block that is processed, we should be in "finished" state.
testSteps = append(
testSteps,
sProcessedBlockEv("waitForBlock", "finished", nil))
break forLoop
}
testSteps = append(
testSteps,
sProcessedBlockEv("waitForBlock", "waitForBlock", nil))
}
numBlocksReceived = 0
prevBlocks = make([]int64, 0, maxPendingRequests)
}
}
return testFields{
name: testName,
startingHeight: startingHeight,
maxRequestsPerPeer: maxRequestsPerPeer,
maxPendingRequests: maxPendingRequests,
steps: testSteps,
}
}
const (
maxStartingHeightTest = 100
maxRequestsPerPeerTest = 20
maxTotalPendingRequestsTest = 600
maxNumPeersTest = 1000
maxNumBlocksInChainTest = 10000 // should be smaller than 9999999
)
func makeCorrectTransitionSequenceWithRandomParameters() testFields {
// Generate a starting height for fast sync.
startingHeight := int64(tmrand.Intn(maxStartingHeightTest) + 1)
// Generate the number of requests per peer.
maxRequestsPerPeer := tmrand.Intn(maxRequestsPerPeerTest) + 1
// Generate the maximum number of total pending requests, >= maxRequestsPerPeer.
maxPendingRequests := tmrand.Intn(maxTotalPendingRequestsTest-maxRequestsPerPeer) + maxRequestsPerPeer
// Generate the number of blocks to be synced.
numBlocks := int64(tmrand.Intn(maxNumBlocksInChainTest)) + startingHeight
// Generate a number of peers.
numPeers := tmrand.Intn(maxNumPeersTest) + 1
return makeCorrectTransitionSequence(startingHeight, numBlocks, numPeers, true, maxRequestsPerPeer, maxPendingRequests)
}
func shouldApplyProcessedBlockEvStep(step *fsmStepTestValues, testBcR *testReactor) bool {
if step.event == processedBlockEv {
_, err := testBcR.fsm.pool.BlockAndPeerAtHeight(testBcR.fsm.pool.Height)
if err == errMissingBlock {
return false
}
_, err = testBcR.fsm.pool.BlockAndPeerAtHeight(testBcR.fsm.pool.Height + 1)
if err == errMissingBlock {
return false
}
}
return true
}
func TestFSMCorrectTransitionSequences(t *testing.T) {
tests := []testFields{
makeCorrectTransitionSequence(1, 100, 10, true, 10, 40),
makeCorrectTransitionSequenceWithRandomParameters(),
}
for _, tt := range tests {
tt := tt
t.Run(tt.name, func(t *testing.T) {
// Create test reactor
testBcR := newTestReactor(tt.startingHeight)
if tt.maxRequestsPerPeer != 0 {
maxRequestsPerPeer = tt.maxRequestsPerPeer
}
for _, step := range tt.steps {
step := step
assert.Equal(t, step.currentState, testBcR.fsm.state.name)
oldNumStatusRequests := testBcR.numStatusRequests
fixBlockResponseEvStep(&step, testBcR)
if !shouldApplyProcessedBlockEvStep(&step, testBcR) {
continue
}
fsmErr := sendEventToFSM(testBcR.fsm, step.event, step.data)
assert.Equal(t, step.wantErr, fsmErr)
if step.wantStatusReqSent {
assert.Equal(t, oldNumStatusRequests+1, testBcR.numStatusRequests)
} else {
assert.Equal(t, oldNumStatusRequests, testBcR.numStatusRequests)
}
assert.Equal(t, step.wantState, testBcR.fsm.state.name)
if step.wantState == "finished" {
assert.True(t, testBcR.fsm.isCaughtUp())
}
}
})
}
}
// ----------------------------------------
// implements the bcRNotifier
func (testR *testReactor) sendPeerError(err error, peerID p2p.ID) {
testR.logger.Info("Reactor received sendPeerError call from FSM", "peer", peerID, "err", err)
testR.lastPeerError.peerID = peerID
testR.lastPeerError.err = err
}
func (testR *testReactor) sendStatusRequest() {
testR.logger.Info("Reactor received sendStatusRequest call from FSM")
testR.numStatusRequests++
}
func (testR *testReactor) sendBlockRequest(peerID p2p.ID, height int64) error {
testR.logger.Info("Reactor received sendBlockRequest call from FSM", "peer", peerID, "height", height)
testR.numBlockRequests++
testR.lastBlockRequest.peerID = peerID
testR.lastBlockRequest.height = height
if height == 9999999 {
// simulate switch does not have peer
return errNilPeerForBlockRequest
}
return nil
}
func (testR *testReactor) resetStateTimer(name string, timer **time.Timer, timeout time.Duration) {
testR.logger.Info("Reactor received resetStateTimer call from FSM", "state", name, "timeout", timeout)
if _, ok := testR.stateTimerStarts[name]; !ok {
testR.stateTimerStarts[name] = 1
} else {
testR.stateTimerStarts[name]++
}
}
func (testR *testReactor) switchToConsensus() {
}
// ----------------------------------------