StillHammer
ddbed30ed7
Implémentation complète du scénario 11 (IO System Stress Test) avec correction majeure de l'architecture de routing IntraIO. ## Nouveaux Modules de Test (Scenario 11) - ProducerModule: Publie messages pour tests IO - ConsumerModule: Consomme et valide messages reçus - BroadcastModule: Test multi-subscriber broadcasting - BatchModule: Test low-frequency batching - IOStressModule: Tests de charge concurrents ## Test d'Intégration - test_11_io_system.cpp: 6 tests validant: * Basic Publish-Subscribe * Pattern Matching avec wildcards * Multi-Module Routing (1-to-many) * Low-Frequency Subscriptions (batching) * Backpressure & Queue Overflow * Thread Safety (concurrent pub/pull) ## Fix Architecture Critique: IntraIO Routing **Problème**: IntraIO::publish() et subscribe() n'utilisaient PAS IntraIOManager pour router entre modules. **Solution**: Utilisation de JSON comme format de transport intermédiaire - IntraIO::publish() → extrait JSON → IntraIOManager::routeMessage() - IntraIO::subscribe() → enregistre au IntraIOManager::registerSubscription() - IntraIOManager::routeMessage() → copie JSON pour chaque subscriber → deliverMessage() **Bénéfices**: - ✅ Routing centralisé fonctionnel - ✅ Support 1-to-many (copie JSON au lieu de move unique_ptr) - ✅ Pas besoin d'implémenter IDataNode::clone() - ✅ Compatible futur NetworkIO (JSON sérialisable) ## Modules Scenario 13 (Cross-System) - ConfigWatcherModule, PlayerModule, EconomyModule, MetricsModule - test_13_cross_system.cpp (stub) ## Documentation - CLAUDE_NEXT_SESSION.md: Instructions détaillées pour build/test 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude <noreply@anthropic.com>
77 lines
2.2 KiB
C++
77 lines
2.2 KiB
C++
#include "IOStressModule.h"
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#include <grove/JsonDataNode.h>
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#include <iostream>
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namespace grove {
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IOStressModule::IOStressModule() {
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std::cout << "[IOStressModule] Constructor" << std::endl;
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}
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IOStressModule::~IOStressModule() {
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std::cout << "[IOStressModule] Destructor" << std::endl;
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}
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void IOStressModule::process(const IDataNode& input) {
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if (!io) return;
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// Pull all available messages (high-frequency consumer)
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while (io->hasMessages() > 0) {
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try {
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auto msg = io->pullMessage();
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receivedCount++;
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} catch (const std::exception& e) {
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std::cerr << "[IOStressModule] Error pulling message: " << e.what() << std::endl;
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}
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}
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}
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void IOStressModule::setConfiguration(const IDataNode& configNode, IIO* ioPtr, ITaskScheduler* schedulerPtr) {
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std::cout << "[IOStressModule] setConfiguration called" << std::endl;
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this->io = ioPtr;
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this->scheduler = schedulerPtr;
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config = std::make_unique<JsonDataNode>("config", nlohmann::json::object());
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}
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const IDataNode& IOStressModule::getConfiguration() {
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if (!config) {
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config = std::make_unique<JsonDataNode>("config", nlohmann::json::object());
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}
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return *config;
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}
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std::unique_ptr<IDataNode> IOStressModule::getHealthStatus() {
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nlohmann::json health = {
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{"status", "healthy"},
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{"receivedCount", receivedCount}
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};
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return std::make_unique<JsonDataNode>("health", health);
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}
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void IOStressModule::shutdown() {
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std::cout << "[IOStressModule] Shutdown - Received " << receivedCount << " messages" << std::endl;
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}
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std::unique_ptr<IDataNode> IOStressModule::getState() {
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nlohmann::json state = {
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{"receivedCount", receivedCount}
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};
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return std::make_unique<JsonDataNode>("state", state);
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}
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void IOStressModule::setState(const IDataNode& state) {
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receivedCount = state.getInt("receivedCount", 0);
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std::cout << "[IOStressModule] State restored - Count: " << receivedCount << std::endl;
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}
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} // namespace grove
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// Export C API
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extern "C" {
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grove::IModule* createModule() {
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return new grove::IOStressModule();
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}
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}
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