📄 csma16.cta
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/* * File: CTA-model of Carrier Sense Multiple Access Collision Detect * Protocol (CSMA/CD). * modules: Sender, Medium * author: Dirk Beyer, 2002 * last change: mvogel 2002-03-18 * * Based on: "A case study: the CSMA/CD protocol", Sergio Yovine, * VERIMAG-SPECTRE, November 18, 1994 */ // This module represents the template for one sender.MODULE Sender{ INPUT propTime : CONST; // time for signal propagation. (paper: Sigma) transmTime : CONST; // time for data transmission. (paper: Lambda) collDetect : SYNC; // Collision detection by medium. MULTREST // Senders syncronisation events. begin : SYNC; // Begin of data transmitting end : SYNC; // End of data transmitting busy : SYNC; // Busy signaling by medium. // Set initial state of automaton and clock values. INITIAL STATE(Sender) = init AND x = transmTime + 1; AUTOMATON Sender { STATE init { TRANS { SYNC ?collDetect; DO x' = x; GOTO init; } TRANS { DO x' = x; GOTO send; } } STATE send { INV FALSE; TRANS { SYNC #begin; DO x' = 0; GOTO transmit; } TRANS { SYNC #busy; DO x' = 0; GOTO collDetected; } TRANS { SYNC ?collDetect; DO x' = 0; GOTO collDetected; } } STATE collDetected { INV x <= propTime + propTime; TRANS { SYNC ?collDetect; DO x' = x; GOTO collDetected; } TRANS { DO x' = transmTime + 1; GOTO send; } } STATE transmit { INV x <= transmTime; TRANS { SYNC ?collDetect; DO x' = 0; GOTO collDetected; } TRANS { GUARD x = transmTime; SYNC #end; DO x' = transmTime + 1; GOTO init; } } } LOCAL // A clock to measure the time in a state. x: CLOCK(5); // transmTime + 1}// Module of the whole system.MODULE System{ LOCAL // Constants for time bounds. propTime = 1 : CONST; // time for signal propagation. (paper: Sigma) transmTime = 4 : CONST; // time for data transmission. (paper: Lambda) collDetect : SYNC; // Collision detect signal. (Same signal for all) // Begin signals for every Sender. begin1 : SYNC; begin2 : SYNC; begin3 : SYNC; begin4 : SYNC; begin5 : SYNC; begin6 : SYNC; begin7 : SYNC; begin8 : SYNC; begin9 : SYNC; begin10 : SYNC; begin11 : SYNC; begin12 : SYNC; begin13 : SYNC; begin14 : SYNC; begin15 : SYNC; begin16 : SYNC; // End signals fro every Sender. end1 : SYNC; end2 : SYNC; end3 : SYNC; end4 : SYNC; end5 : SYNC; end6 : SYNC; end7 : SYNC; end8 : SYNC; end9 : SYNC; end10 : SYNC; end11 : SYNC; end12 : SYNC; end13 : SYNC; end14 : SYNC; end15 : SYNC; end16 : SYNC; // Busy signals for every Sender. busy1 : SYNC; busy2 : SYNC; busy3 : SYNC; busy4 : SYNC; busy5 : SYNC; busy6 : SYNC; busy7 : SYNC; busy8 : SYNC; busy9 : SYNC; busy10 : SYNC; busy11 : SYNC; busy12 : SYNC; busy13 : SYNC; busy14 : SYNC; busy15 : SYNC; busy16 : SYNC; INITIAL STATE(Medium)= init AND x = propTime + 1; AUTOMATON Medium { STATE init { INV FALSE; TRANS { SYNC #begin1; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin2; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin3; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin4; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin5; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin6; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin7; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin8; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin9; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin10; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin11; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin12; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin13; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin14; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin15; DO x' = 0; GOTO transmit; } TRANS { SYNC #begin16; DO x' = 0; GOTO transmit; } } STATE transmit { TRANS { GUARD x >= propTime; SYNC #busy1; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy2; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy3; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy4; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy5; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy6; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy7; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy8; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy9; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy10; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy11; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy12; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy13; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy14; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy15; DO x' = propTime + 1; GOTO transmit; } TRANS { GUARD x >= propTime; SYNC #busy16; DO x' = propTime + 1; GOTO transmit; } TRANS { SYNC #end1; DO x' = propTime + 1; GOTO init; } TRANS { SYNC #end2; DO x' = propTime + 1; GOTO init; } TRANS { SYNC #end3; DO x' = propTime + 1; GOTO init; } TRANS { SYNC #end4; DO x' = propTime + 1; GOTO init; } TRANS { SYNC #end5; DO x' = propTime + 1; GOTO init; }⌨️ 快捷键说明
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