public CoucheMAC(Signal signal, CoucheLLC coucheLLC) { this.m_signal = signal; this.m_evenementStream = coucheLLC.EvenementStream; this.m_LLCStreamIn = coucheLLC.MACStreamOut; this.m_LLCStreamOut = coucheLLC.MACStreamIn; this.m_physiqueStreamIn = new BlockingCollection <char[]>(); this.m_physiqueStreamOut = new BlockingCollection <char[]>(); }
public void Run() { Paramètres param = new Paramètres(); Console.WriteLine("Quelle est la taille du tampon à utiliser de chaque côté du support de transmission?"); bool entreeCorrecte = false; while (!entreeCorrecte) { try { param.tailleTampon = Convert.ToUInt16(Console.ReadLine()); entreeCorrecte = true; } catch (InvalidCastException) { Console.WriteLine("La valeur entrée n'est pas un entier; svp réessayer :"); } } Console.WriteLine("Quel est le délais de temporisation des trames?"); entreeCorrecte = false; while (!entreeCorrecte) { try { param.delaisTemporisation = Convert.ToUInt16(Console.ReadLine()); entreeCorrecte = true; } catch (InvalidCastException) { Console.WriteLine("La valeur entrée n'est pas un entier; svp réessayer :"); } } Console.WriteLine("Quel est l'emplacement du fichier à copier?"); param.emplacementACopier = Console.ReadLine(); Console.WriteLine("Quel est l'emplacemenet pour la copie du fichier?"); param.emplacementCopie = Console.ReadLine(); tramesA1_A2 = new BlockingCollection <Trame>(); tramesA2_A1 = new BlockingCollection <Trame>(); tramesA_C = new BlockingCollection <Trame>(); tramesC_A = new BlockingCollection <Trame>(); tramesB_C = new BlockingCollection <Trame>(); tramesC_B = new BlockingCollection <Trame>(); tramesB1_B2 = new BlockingCollection <Trame>(); tramesB2_B1 = new BlockingCollection <Trame>(); A1 = new CoucheLLC(g_signal); A2 = new CoucheMAC(g_signal, A1); B1 = new CoucheLLC(g_signal); B2 = new CoucheMAC(g_signal, B1); C = new CouchePhysique(g_signal, A2, B2); Thread threadA1 = new Thread(A1.Run); Thread threadA2 = new Thread(A2.Run); Thread threadB1 = new Thread(B1.Run); Thread threadB2 = new Thread(B2.Run); Thread threadC = new Thread(C.Run); try { threadA1.Start(); threadA2.Start(); threadB1.Start(); threadB1.Start(); threadC.Start(); } finally { threadA1.Join(); threadA2.Join(); threadB1.Join(); threadB1.Join(); threadC.Join(); } }
public void Run() { Paramètres param = new Paramètres(); //TO DO - removes the debug options - see cmts below Console.WriteLine("Quelle est la taille du tampon à utiliser de chaque côté du support de transmission?"); bool entreeCorrecte = false; //TO DO: uncommment real code below, comment DEBUG instead //#########################DEBUG################ param.tailleTampon = Convert.ToUInt16(10); entreeCorrecte = true; //#########################DEBUG################ //while (!entreeCorrecte) //{ // try // { // param.tailleTampon = Convert.ToUInt16(Console.ReadLine()); // entreeCorrecte = true; // } // catch (InvalidCastException) // { // Console.WriteLine("La valeur entrée n'est pas un entier; svp réessayer :"); // } //} Console.WriteLine("Quel est le délais de temporisation des trames?"); entreeCorrecte = false; //TO DO: uncommment real code below, comment DEBUG instead //#########################DEBUG################ param.delaisTemporisation = Convert.ToUInt16(10); entreeCorrecte = true; //#########################DEBUG################ //while (!entreeCorrecte) //{ // try // { // param.delaisTemporisation = Convert.ToUInt16(Console.ReadLine()); // entreeCorrecte = true; // } // catch (InvalidCastException) // { // Console.WriteLine("La valeur entrée n'est pas un entier; svp réessayer :"); // } //} //TO DO: uncommment real code below, comment DEBUG instead //#########################DEBUG################ Console.WriteLine(@"Fichier input: utilise U:\hiver2018\ift585\tp1_liaison\source\t"); param.emplacementACopier = @"U:\hiver2018\ift585\tp1_liaison\source\t"; //#########################DEBUG################ //Console.WriteLine("Quel est l'emplacement du fichier à copier?"); //param.emplacementACopier = Console.ReadLine(); //TO DO: uncommment real code below, comment DEBUG instead //#########################DEBUG################ Console.WriteLine(@"Fichier output: utilise U:\hiver2018\ift585\tp1_liaison\source\t"); param.emplacementCopie = @"U:\hiver2018\ift585\tp1_liaison\dest\t";; //#########################DEBUG################ //Console.WriteLine("Quel est l'emplacemenet pour la copie du fichier?"); //param.emplacementCopie = Console.ReadLine(); //Easiser to follow stuff than on console Logging.createLogFile(); //I'm not sure we need one collection all the collections? tramesA1_A2 = new BlockingCollection <Trame>(); tramesA2_A1 = new BlockingCollection <Trame>(); tramesA_C = new BlockingCollection <Trame>(); tramesC_A = new BlockingCollection <Trame>(); tramesB_C = new BlockingCollection <Trame>(); tramesC_B = new BlockingCollection <Trame>(); tramesB1_B2 = new BlockingCollection <Trame>(); tramesB2_B1 = new BlockingCollection <Trame>(); all_trame_collections.Add(tramesA1_A2); all_trame_collections.Add(tramesA2_A1); all_trame_collections.Add(tramesA_C); all_trame_collections.Add(tramesC_A); all_trame_collections.Add(tramesB_C); all_trame_collections.Add(tramesC_B); all_trame_collections.Add(tramesB1_B2); all_trame_collections.Add(tramesB2_B1); A1 = new CoucheLLC(g_signal); A2 = new CoucheMAC(g_signal, A1); B1 = new CoucheLLC(g_signal); B2 = new CoucheMAC(g_signal, B1); C = new CouchePhysique(g_signal, A2, B2); /*init A1, B1. This creates their CoucheReseau essentially. Let's suppose A1 sends (is_receiving=false) and B1 receives...*/ A1.Initialiser(param.emplacementACopier, is_active: false); B1.Initialiser(param.emplacementCopie, is_active: true); Thread threadA1 = new Thread(A1.Run); Thread threadA2 = new Thread(A2.Run); Thread threadB1 = new Thread(B1.Run); Thread threadB2 = new Thread(B2.Run); Thread threadC = new Thread(C.Run); //easier to debug threadA1.Name = "A1_LLC"; threadA2.Name = "A2_MAC"; threadB1.Name = "B1_LLC"; threadB2.Name = "B2_MAC"; threadC.Name = "C_PHYS"; all_threads.Add(threadA1); all_threads.Add(threadA2); all_threads.Add(threadB1); all_threads.Add(threadB2); all_threads.Add(threadC); try { /*MS documentation directly: Causes the operating system to change the state of * the current instance to ThreadState.Running, and optionally supplies an object * containing data to be used by the method the thread executes.*/ //Apparently you can pass arguments to the threads through Start() threadA1.Start(); threadA2.Start(); threadB1.Start(); threadB2.Start(); threadC.Start(); } finally { threadA1.Join(); threadA2.Join(); threadB1.Join(); threadB2.Join(); threadC.Join(); } }