// Copyright 2023 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. //go:build go1.21 package quic import ( "slices" "testing" "time" ) func TestAcksDisallowDuplicate(t *testing.T) { // Don't process a packet that we've seen before. acks := ackState{} now := time.Now() receive := []packetNumber{0, 1, 2, 4, 7, 6, 9} seen := map[packetNumber]bool{} for i, pnum := range receive { acks.receive(now, appDataSpace, pnum, true) seen[pnum] = true for ppnum := packetNumber(0); ppnum < 11; ppnum++ { if got, want := acks.shouldProcess(ppnum), !seen[ppnum]; got != want { t.Fatalf("after receiving %v: acks.shouldProcess(%v) = %v, want %v", receive[:i+1], ppnum, got, want) } } } } func TestAcksDisallowDiscardedAckRanges(t *testing.T) { // Don't process a packet with a number in a discarded range. acks := ackState{} now := time.Now() for pnum := packetNumber(0); ; pnum += 2 { acks.receive(now, appDataSpace, pnum, true) send, _ := acks.acksToSend(now) for ppnum := packetNumber(0); ppnum < packetNumber(send.min()); ppnum++ { if acks.shouldProcess(ppnum) { t.Fatalf("after limiting ack ranges to %v: acks.shouldProcess(%v) (in discarded range) = true, want false", send, ppnum) } } if send.min() > 10 { break } } } func TestAcksSent(t *testing.T) { type packet struct { pnum packetNumber ackEliciting bool } for _, test := range []struct { name string space numberSpace // ackedPackets and packets are packets that we receive. // After receiving all packets in ackedPackets, we send an ack. // Then we receive the subsequent packets in packets. ackedPackets []packet packets []packet wantDelay time.Duration wantAcks rangeset[packetNumber] }{{ name: "no packets to ack", space: initialSpace, }, { name: "non-ack-eliciting packets are not acked", space: initialSpace, packets: []packet{{ pnum: 0, ackEliciting: false, }}, }, { name: "ack-eliciting Initial packets are acked immediately", space: initialSpace, packets: []packet{{ pnum: 0, ackEliciting: true, }}, wantAcks: rangeset[packetNumber]{{0, 1}}, wantDelay: 0, }, { name: "ack-eliciting Handshake packets are acked immediately", space: handshakeSpace, packets: []packet{{ pnum: 0, ackEliciting: true, }}, wantAcks: rangeset[packetNumber]{{0, 1}}, wantDelay: 0, }, { name: "ack-eliciting AppData packets are acked after max_ack_delay", space: appDataSpace, packets: []packet{{ pnum: 0, ackEliciting: true, }}, wantAcks: rangeset[packetNumber]{{0, 1}}, wantDelay: maxAckDelay - timerGranularity, }, { name: "reordered ack-eliciting packets are acked immediately", space: appDataSpace, ackedPackets: []packet{{ pnum: 1, ackEliciting: true, }}, packets: []packet{{ pnum: 0, ackEliciting: true, }}, wantAcks: rangeset[packetNumber]{{0, 2}}, wantDelay: 0, }, { name: "gaps in ack-eliciting packets are acked immediately", space: appDataSpace, packets: []packet{{ pnum: 1, ackEliciting: true, }}, wantAcks: rangeset[packetNumber]{{1, 2}}, wantDelay: 0, }, { name: "reordered non-ack-eliciting packets are not acked immediately", space: appDataSpace, ackedPackets: []packet{{ pnum: 1, ackEliciting: true, }}, packets: []packet{{ pnum: 2, ackEliciting: true, }, { pnum: 0, ackEliciting: false, }, { pnum: 4, ackEliciting: false, }}, wantAcks: rangeset[packetNumber]{{0, 3}, {4, 5}}, wantDelay: maxAckDelay - timerGranularity, }, { name: "immediate ack after two ack-eliciting packets are received", space: appDataSpace, packets: []packet{{ pnum: 0, ackEliciting: true, }, { pnum: 1, ackEliciting: true, }}, wantAcks: rangeset[packetNumber]{{0, 2}}, wantDelay: 0, }} { t.Run(test.name, func(t *testing.T) { acks := ackState{} start := time.Date(2020, 1, 1, 0, 0, 0, 0, time.UTC) for _, p := range test.ackedPackets { t.Logf("receive %v.%v, ack-eliciting=%v", test.space, p.pnum, p.ackEliciting) acks.receive(start, test.space, p.pnum, p.ackEliciting) } t.Logf("send an ACK frame") acks.sentAck() for _, p := range test.packets { t.Logf("receive %v.%v, ack-eliciting=%v", test.space, p.pnum, p.ackEliciting) acks.receive(start, test.space, p.pnum, p.ackEliciting) } switch { case len(test.wantAcks) == 0: // No ACK should be sent, even well after max_ack_delay. if acks.shouldSendAck(start.Add(10 * maxAckDelay)) { t.Errorf("acks.shouldSendAck(T+10*max_ack_delay) = true, want false") } case test.wantDelay > 0: // No ACK should be sent before a delay. if acks.shouldSendAck(start.Add(test.wantDelay - 1)) { t.Errorf("acks.shouldSendAck(T+%v-1ns) = true, want false", test.wantDelay) } fallthrough default: // ACK should be sent after a delay. if !acks.shouldSendAck(start.Add(test.wantDelay)) { t.Errorf("acks.shouldSendAck(T+%v) = false, want true", test.wantDelay) } } // acksToSend always reports the available packets that can be acked, // and the amount of time that has passed since the most recent acked // packet was received. for _, delay := range []time.Duration{ 0, test.wantDelay, test.wantDelay + 1, } { gotNums, gotDelay := acks.acksToSend(start.Add(delay)) wantDelay := delay if len(gotNums) == 0 { wantDelay = 0 } if !slices.Equal(gotNums, test.wantAcks) || gotDelay != wantDelay { t.Errorf("acks.acksToSend(T+%v) = %v, %v; want %v, %v", delay, gotNums, gotDelay, test.wantAcks, wantDelay) } } }) } } func TestAcksDiscardAfterAck(t *testing.T) { acks := ackState{} now := time.Now() acks.receive(now, appDataSpace, 0, true) acks.receive(now, appDataSpace, 2, true) acks.receive(now, appDataSpace, 4, true) acks.receive(now, appDataSpace, 5, true) acks.receive(now, appDataSpace, 6, true) acks.handleAck(6) // discards all ranges prior to the one containing packet 6 acks.receive(now, appDataSpace, 7, true) got, _ := acks.acksToSend(now) if len(got) != 1 { t.Errorf("acks.acksToSend contains ranges prior to last acknowledged ack; got %v, want 1 range", got) } } func TestAcksLargestSeen(t *testing.T) { acks := ackState{} now := time.Now() acks.receive(now, appDataSpace, 0, true) acks.receive(now, appDataSpace, 4, true) acks.receive(now, appDataSpace, 1, true) if got, want := acks.largestSeen(), packetNumber(4); got != want { t.Errorf("acks.largestSeen() = %v, want %v", got, want) } }