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Add retransmission count to MRP TransmitEvent #37768

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merged 3 commits into from
Feb 27, 2025
Merged

Add retransmission count to MRP TransmitEvent #37768

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7a8cd32
Add retransmission count to MRP TransmitEvent
tehampson Feb 25, 2025
3807500
Self review
tehampson Feb 25, 2025
8becdc8
Change forth to fourth
tehampson Feb 26, 2025
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5 changes: 5 additions & 0 deletions src/messaging/ReliableMessageAnalyticsDelegate.h
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Original file line number Diff line number Diff line change
@@ -22,6 +22,8 @@

#pragma once

#include <optional>

#include <lib/core/DataModelTypes.h>
#include <lib/core/NodeId.h>

@@ -65,6 +67,9 @@ class ReliableMessageAnalyticsDelegate
// The outgoing message counter associated with the event. If there is no outgoing message counter
// this value will be 0.
uint32_t messageCounter = 0;
// If the eventType is kRetransmission, this value will be populated with the number of the
// retransmission attempt
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@bzbarsky-apple bzbarsky-apple Feb 28, 2025
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This needs to document what "2" means: the first retransmission (i.e. the second packet sent), or the second retransmission (third packet sent).

std::optional<uint8_t> retransmissionCount;
};

virtual void OnTransmitEvent(const TransmitEvent & event) = 0;
6 changes: 6 additions & 0 deletions src/messaging/ReliableMessageMgr.cpp
View file
Original file line number Diff line number Diff line change
@@ -126,6 +126,12 @@ void ReliableMessageMgr::NotifyMessageSendAnalytics(const RetransTableEntry & en
ReliableMessageAnalyticsDelegate::SessionType::kEstablishedCase,
.eventType = eventType,
.messageCounter = messageCounter };

if (eventType == ReliableMessageAnalyticsDelegate::EventType::kRetransmission)
{
event.retransmissionCount = entry.sendCount;
}

mAnalyticsDelegate->OnTransmitEvent(event);
}
#endif // CHIP_CONFIG_MRP_ANALYTICS_ENABLED
32 changes: 22 additions & 10 deletions src/messaging/tests/TestReliableMessageProtocol.cpp
View file
Original file line number Diff line number Diff line change
@@ -2144,6 +2144,7 @@ TEST_F(TestReliableMessageProtocol, CheckReliableMessageAnalyticsForTransmitEven
EXPECT_EQ(firstTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(firstTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(firstTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kInitialSend);
EXPECT_EQ(firstTransmitEvent.retransmissionCount, std::nullopt);
// We have no way of validating the first messageCounter since this is a randomly generated value, but it should
// remain constant for all subsequent transmit events in this test.
const uint32_t messageCounter = firstTransmitEvent.messageCounter;
@@ -2153,34 +2154,39 @@ TEST_F(TestReliableMessageProtocol, CheckReliableMessageAnalyticsForTransmitEven
EXPECT_EQ(secondTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(secondTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(secondTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(secondTransmitEvent.retransmissionCount, 1);
EXPECT_EQ(messageCounter, secondTransmitEvent.messageCounter);

testAnalyticsDelegate.mTransmitEvents.pop();
auto thirdTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(thirdTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(thirdTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(thirdTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(thirdTransmitEvent.retransmissionCount, 2);
EXPECT_EQ(messageCounter, thirdTransmitEvent.messageCounter);

testAnalyticsDelegate.mTransmitEvents.pop();
auto forthTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(forthTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(forthTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(forthTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(messageCounter, forthTransmitEvent.messageCounter);
auto fourthTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(fourthTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(fourthTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(fourthTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(fourthTransmitEvent.retransmissionCount, 3);
EXPECT_EQ(messageCounter, fourthTransmitEvent.messageCounter);

testAnalyticsDelegate.mTransmitEvents.pop();
auto fifthTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(fifthTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(fifthTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(fifthTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(fifthTransmitEvent.retransmissionCount, 4);
EXPECT_EQ(messageCounter, fifthTransmitEvent.messageCounter);

testAnalyticsDelegate.mTransmitEvents.pop();
auto sixthTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(sixthTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(sixthTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(sixthTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kAcknowledged);
EXPECT_EQ(sixthTransmitEvent.retransmissionCount, std::nullopt);
EXPECT_EQ(messageCounter, sixthTransmitEvent.messageCounter);
}

@@ -2280,6 +2286,7 @@ TEST_F(TestReliableMessageProtocol, CheckReliableMessageAnalyticsForTransmitFail
EXPECT_EQ(firstTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(firstTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(firstTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kInitialSend);
EXPECT_EQ(firstTransmitEvent.retransmissionCount, std::nullopt);
// We have no way of validating the first messageCounter since this is a randomly generated value, but it should
// remain constant for all subsequent transmit events in this test.
const uint32_t messageCounter = firstTransmitEvent.messageCounter;
@@ -2289,33 +2296,38 @@ TEST_F(TestReliableMessageProtocol, CheckReliableMessageAnalyticsForTransmitFail
EXPECT_EQ(secondTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(secondTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(secondTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(secondTransmitEvent.retransmissionCount, 1);
EXPECT_EQ(messageCounter, secondTransmitEvent.messageCounter);

testAnalyticsDelegate.mTransmitEvents.pop();
auto thirdTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(thirdTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(thirdTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(thirdTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(thirdTransmitEvent.retransmissionCount, 2);
EXPECT_EQ(messageCounter, thirdTransmitEvent.messageCounter);

testAnalyticsDelegate.mTransmitEvents.pop();
auto forthTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(forthTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(forthTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(forthTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(messageCounter, forthTransmitEvent.messageCounter);
auto fourthTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(fourthTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(fourthTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(fourthTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(fourthTransmitEvent.retransmissionCount, 3);
EXPECT_EQ(messageCounter, fourthTransmitEvent.messageCounter);

testAnalyticsDelegate.mTransmitEvents.pop();
auto fifthTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(fifthTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(fifthTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(fifthTransmitEvent.retransmissionCount, 4);
EXPECT_EQ(fifthTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kRetransmission);
EXPECT_EQ(messageCounter, fifthTransmitEvent.messageCounter);

testAnalyticsDelegate.mTransmitEvents.pop();
auto sixthTransmitEvent = testAnalyticsDelegate.mTransmitEvents.front();
EXPECT_EQ(sixthTransmitEvent.nodeId, expectedNodeId);
EXPECT_EQ(sixthTransmitEvent.fabricIndex, expectedFabricIndex);
EXPECT_EQ(sixthTransmitEvent.retransmissionCount, std::nullopt);
EXPECT_EQ(sixthTransmitEvent.eventType, ReliableMessageAnalyticsDelegate::EventType::kFailed);
EXPECT_EQ(messageCounter, sixthTransmitEvent.messageCounter);
}