package channeldb import ( "math/rand" "reflect" "testing" "github.com/davecgh/go-spew/spew" "github.com/lightningnetwork/lnd/lnwire" "time" ) // TestForwardingLogBasicStorageAndQuery tests that we're able to store and // then query for items that have previously been added to the event log. func TestForwardingLogBasicStorageAndQuery(t *testing.T) { t.Parallel() // First, we'll set up a test database, and use that to instantiate the // forwarding event log that we'll be using for the duration of the // test. db, cleanUp, err := makeTestDB() defer cleanUp() if err != nil { t.Fatalf("unable to make test db: %v", err) } log := ForwardingLog{ db: db, } initialTime := time.Unix(1234, 0) timestamp := time.Unix(1234, 0) // We'll create 100 random events, which each event being spaced 10 // minutes after the prior event. numEvents := 100 events := make([]ForwardingEvent, numEvents) for i := 0; i < numEvents; i++ { events[i] = ForwardingEvent{ Timestamp: timestamp, IncomingChanID: lnwire.NewShortChanIDFromInt(uint64(rand.Int63())), OutgoingChanID: lnwire.NewShortChanIDFromInt(uint64(rand.Int63())), AmtIn: lnwire.MilliSatoshi(rand.Int63()), AmtOut: lnwire.MilliSatoshi(rand.Int63()), } timestamp = timestamp.Add(time.Minute * 10) } // Now that all of our set of events constructed, we'll add them to the // database in a batch manner. if err := log.AddForwardingEvents(events); err != nil { t.Fatalf("unable to add events: %v", err) } // With our events added we'll now construct a basic query to retrieve // all of the events. eventQuery := ForwardingEventQuery{ StartTime: initialTime, EndTime: timestamp, IndexOffset: 0, NumMaxEvents: 1000, } timeSlice, err := log.Query(eventQuery) if err != nil { t.Fatalf("unable to query for events: %v", err) } // The set of returned events should match identically, as they should // be returned in sorted order. if !reflect.DeepEqual(events, timeSlice.ForwardingEvents) { t.Fatalf("event mismatch: expected %v vs %v", spew.Sdump(events), spew.Sdump(timeSlice.ForwardingEvents)) } // The offset index of the final entry should be numEvents, so the // number of total events we've written. if timeSlice.LastIndexOffset != uint32(numEvents) { t.Fatalf("wrong final offset: expected %v, got %v", timeSlice.LastIndexOffset, numEvents) } } // TestForwardingLogQueryOptions tests that the query offset works properly. So // if we add a series of events, then we should be able to seek within the // timeslice accordingly. This exercises the index offset and num max event // field in the query, and also the last index offset field int he response. func TestForwardingLogQueryOptions(t *testing.T) { t.Parallel() // First, we'll set up a test database, and use that to instantiate the // forwarding event log that we'll be using for the duration of the // test. db, cleanUp, err := makeTestDB() defer cleanUp() if err != nil { t.Fatalf("unable to make test db: %v", err) } log := ForwardingLog{ db: db, } initialTime := time.Unix(1234, 0) endTime := time.Unix(1234, 0) // We'll create 20 random events, which each event being spaced 10 // minutes after the prior event. numEvents := 20 events := make([]ForwardingEvent, numEvents) for i := 0; i < numEvents; i++ { events[i] = ForwardingEvent{ Timestamp: endTime, IncomingChanID: lnwire.NewShortChanIDFromInt(uint64(rand.Int63())), OutgoingChanID: lnwire.NewShortChanIDFromInt(uint64(rand.Int63())), AmtIn: lnwire.MilliSatoshi(rand.Int63()), AmtOut: lnwire.MilliSatoshi(rand.Int63()), } endTime = endTime.Add(time.Minute * 10) } // Now that all of our set of events constructed, we'll add them to the // database in a batch manner. if err := log.AddForwardingEvents(events); err != nil { t.Fatalf("unable to add events: %v", err) } // With all of our events added, we should be able to query for the // first 10 events using the max event query field. eventQuery := ForwardingEventQuery{ StartTime: initialTime, EndTime: endTime, IndexOffset: 0, NumMaxEvents: 10, } timeSlice, err := log.Query(eventQuery) if err != nil { t.Fatalf("unable to query for events: %v", err) } // We should get exactly 10 events back. if len(timeSlice.ForwardingEvents) != 10 { t.Fatalf("wrong number of events: expected %v, got %v", 10, len(timeSlice.ForwardingEvents)) } // The set of events returned should be the first 10 events that we // added. if !reflect.DeepEqual(events[:10], timeSlice.ForwardingEvents) { t.Fatalf("wrong response: expected %v, got %v", spew.Sdump(events[:10]), spew.Sdump(timeSlice.ForwardingEvents)) } // The final offset should be the exact number of events returned. if timeSlice.LastIndexOffset != 10 { t.Fatalf("wrong index offset: expected %v, got %v", 10, timeSlice.LastIndexOffset) } // If we use the final offset to query again, then we should get 10 // more events, that are the last 10 events we wrote. eventQuery.IndexOffset = 10 timeSlice, err = log.Query(eventQuery) if err != nil { t.Fatalf("unable to query for events: %v", err) } // We should get exactly 10 events back once again. if len(timeSlice.ForwardingEvents) != 10 { t.Fatalf("wrong number of events: expected %v, got %v", 10, len(timeSlice.ForwardingEvents)) } // The events that we got back should be the last 10 events that we // wrote out. if !reflect.DeepEqual(events[10:], timeSlice.ForwardingEvents) { t.Fatalf("wrong response: expected %v, got %v", spew.Sdump(events[10:]), spew.Sdump(timeSlice.ForwardingEvents)) } // Finally, the last index offset should be 20, or the number of // records we've written out. if timeSlice.LastIndexOffset != 20 { t.Fatalf("wrong index offset: expected %v, got %v", 20, timeSlice.LastIndexOffset) } } // TestForwardingLogQueryLimit tests that we're able to properly limit the // number of events that are returned as part of a query. func TestForwardingLogQueryLimit(t *testing.T) { t.Parallel() // First, we'll set up a test database, and use that to instantiate the // forwarding event log that we'll be using for the duration of the // test. db, cleanUp, err := makeTestDB() defer cleanUp() if err != nil { t.Fatalf("unable to make test db: %v", err) } log := ForwardingLog{ db: db, } initialTime := time.Unix(1234, 0) endTime := time.Unix(1234, 0) // We'll create 200 random events, which each event being spaced 10 // minutes after the prior event. numEvents := 200 events := make([]ForwardingEvent, numEvents) for i := 0; i < numEvents; i++ { events[i] = ForwardingEvent{ Timestamp: endTime, IncomingChanID: lnwire.NewShortChanIDFromInt(uint64(rand.Int63())), OutgoingChanID: lnwire.NewShortChanIDFromInt(uint64(rand.Int63())), AmtIn: lnwire.MilliSatoshi(rand.Int63()), AmtOut: lnwire.MilliSatoshi(rand.Int63()), } endTime = endTime.Add(time.Minute * 10) } // Now that all of our set of events constructed, we'll add them to the // database in a batch manner. if err := log.AddForwardingEvents(events); err != nil { t.Fatalf("unable to add events: %v", err) } // Once the events have been written out, we'll issue a query over the // entire range, but restrict the number of events to the first 100. eventQuery := ForwardingEventQuery{ StartTime: initialTime, EndTime: endTime, IndexOffset: 0, NumMaxEvents: 100, } timeSlice, err := log.Query(eventQuery) if err != nil { t.Fatalf("unable to query for events: %v", err) } // We should get exactly 100 events back. if len(timeSlice.ForwardingEvents) != 100 { t.Fatalf("wrong number of events: expected %v, got %v", 10, len(timeSlice.ForwardingEvents)) } // The set of events returned should be the first 100 events that we // added. if !reflect.DeepEqual(events[:100], timeSlice.ForwardingEvents) { t.Fatalf("wrong response: expected %v, got %v", spew.Sdump(events[:100]), spew.Sdump(timeSlice.ForwardingEvents)) } // The final offset should be the exact number of events returned. if timeSlice.LastIndexOffset != 100 { t.Fatalf("wrong index offset: expected %v, got %v", 100, timeSlice.LastIndexOffset) } }