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tempest/examples/multiobjective/mdp/consensus/origFiles/consensus2_multi5.nm

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added examples from ATVA'12 paper Former-commit-id: a8dd5d09a568c33a471fb3e536d7b7194bb81764
9 years ago
  1. // model of randomised consensus
  3. mdp
  5. const int N = 2; // num processes
  6. const int MAX = 5; // num rounds (R)
  8. // need to turn these into local copies later so the reading phase is complete?
  9. formula leaders_agree1 = (p1=1 | r1<max(r1,r2)) & (p2=1 | r2<max(r1,r2));
  10. formula leaders_agree2 = (p1=2 | r1<max(r1,r2)) & (p2=2 | r2<max(r1,r2));
  12. formula decide1 = leaders_agree1 & (p1=1 | r1<max(r1,r2)-1) & (p2=1 | r2<max(r1,r2)-1);
  13. formula decide2 = leaders_agree2 & (p1=2 | r1<max(r1,r2)-1) & (p2=2 | r2<max(r1,r2)-1);
  15. module process1
  17. s1 : [0..5]; // local state
  18. // 0 initialise/read registers
  19. // 1 finish reading registers (make a decision)
  20. // 1 warn of change
  21. // 2 enter shared coin protocol
  22. // 4 finished
  23. // 5 error (reached max round and cannot decide)
  24. r1 : [0..MAX]; // round of the process
  25. p1 : [0..2]; // preference (0 corresponds to null)
  27. // nondeterministic choice as to initial preference
  28. [] s1=0 & r1=0 -> (p1'=1) & (r1'=1);
  29. [] s1=0 & r1=0 -> (p1'=2) & (r1'=1);
  31. // read registers (currently does nothing because read vs from other processes
  32. [] s1=0 & r1>0 & r1<=MAX -> (s1'=1);
  33. // maxke a decision
  34. [] s1=1 & decide1 -> (s1'=4) & (p1'=1);
  35. [] s1=1 & decide2 -> (s1'=4) & (p1'=2);
  36. [] s1=1 & r1<MAX & leaders_agree1 & !decide1 -> (s1'=0) & (p1'=1) & (r1'=r1+1);
  37. [] s1=1 & r1<MAX & leaders_agree2 & !decide2 -> (s1'=0) & (p1'=2) & (r1'=r1+1);
  38. [] s1=1 & r1<MAX & !(leaders_agree1 | leaders_agree2) -> (s1'=2) & (p1'=0);
  39. [] s1=1 & r1=MAX & !(decide1 | decide2) -> (s1'=5); // run out of rounds so error
  40. // enter the coin procotol for the current round
  41. [coin1_s1_start] s1=2 & r1=1 -> (s1'=3);
  42. [coin2_s1_start] s1=2 & r1=2 -> (s1'=3);
  43. [coin3_s1_start] s1=2 & r1=3 -> (s1'=3);
  44. [coin4_s1_start] s1=2 & r1=4 -> (s1'=3);
  45. // get response from the coin protocol
  46. [coin1_s1_p1] s1=3 & r1=1 -> (s1'=0) & (p1'=1) & (r1'=r1+1);
  47. [coin1_s1_p2] s1=3 & r1=1 -> (s1'=0) & (p1'=2) & (r1'=r1+1);
  48. [coin2_s1_p1] s1=3 & r1=2 -> (s1'=0) & (p1'=1) & (r1'=r1+1);
  49. [coin2_s1_p2] s1=3 & r1=2 -> (s1'=0) & (p1'=2) & (r1'=r1+1);
  50. [coin3_s1_p1] s1=3 & r1=3 -> (s1'=0) & (p1'=1) & (r1'=r1+1);
  51. [coin3_s1_p2] s1=3 & r1=3 -> (s1'=0) & (p1'=2) & (r1'=r1+1);
  52. [coin4_s1_p1] s1=3 & r1=4 -> (s1'=0) & (p1'=1) & (r1'=r1+1);
  53. [coin4_s1_p2] s1=3 & r1=4 -> (s1'=0) & (p1'=2) & (r1'=r1+1);
  54. // done so loop
  55. [done] s1>=4 -> true;
  57. endmodule
  59. module process2 = process1[ s1=s2,
  60. p1=p2,p2=p1,
  61. r1=r2,r2=r1,
  62. coin1_s1_start=coin1_s2_start,coin2_s1_start=coin2_s2_start,coin3_s1_start=coin3_s2_start,coin4_s1_start=coin4_s2_start,
  63. coin1_s1_p1=coin1_s2_p1,coin2_s1_p1=coin2_s2_p1,coin3_s1_p1=coin3_s2_p1,coin4_s1_p1=coin4_s2_p1,
  64. coin1_s1_p2=coin1_s2_p2,coin2_s1_p2=coin2_s2_p2,coin3_s1_p2=coin3_s2_p2,coin4_s1_p2=coin4_s2_p2 ]
  65. endmodule
  67. module coin1_error
  69. c1 : [0..1]; // 1 is the error state
  70. v1 : [0..2]; // value of the coin returned the first time
  72. // first returned value (any processes)
  73. [coin1_s1_p1] v1=0 -> (v1'=1);
  74. [coin1_s2_p1] v1=0 -> (v1'=1);
  75. [coin1_s1_p2] v1=0 -> (v1'=2);
  76. [coin1_s2_p2] v1=0 -> (v1'=2);
  77. // later values returned
  78. [coin1_s1_p1] v1=1 -> true; // good behaviour
  79. [coin1_s2_p1] v1=1 -> true; // good behaviour
  80. [coin1_s1_p2] v1=2 -> true; // good behaviour
  81. [coin1_s2_p2] v1=2 -> true; // good behaviour
  82. [coin1_s1_p1] v1=2 -> (c1'=1); // error
  83. [coin1_s2_p1] v1=2 -> (c1'=1); // error
  84. [coin1_s1_p2] v1=1 -> (c1'=1); // error
  85. [coin1_s2_p2] v1=1 -> (c1'=1); // error
  87. endmodule
  89. // could do with renaming
  90. module coin2_error
  92. c2 : [0..1]; // 1 is the error state
  93. v2 : [0..2]; // value of the coin returned the first time
  95. // first returned value (any processes)
  96. [coin2_s1_p1] v2=0 -> (v2'=1);
  97. [coin2_s2_p1] v2=0 -> (v2'=1);
  98. [coin2_s1_p2] v2=0 -> (v2'=2);
  99. [coin2_s2_p2] v2=0 -> (v2'=2);
  100. // later values returned
  101. [coin2_s1_p1] v2=1 -> true; // good behaviour
  102. [coin2_s2_p1] v2=1 -> true; // good behaviour
  103. [coin2_s1_p2] v2=2 -> true; // good behaviour
  104. [coin2_s2_p2] v2=2 -> true; // good behaviour
  105. [coin2_s1_p1] v2=2 -> (c2'=1); // error
  106. [coin2_s2_p1] v2=2 -> (c2'=1); // error
  107. [coin2_s1_p2] v2=1 -> (c2'=1); // error
  108. [coin2_s2_p2] v2=1 -> (c2'=1); // error
  110. endmodule
  112. // could do with renaming
  113. module coin3_error
  115. c3 : [0..1]; // 1 is the error state
  116. v3 : [0..2]; // value of the coin returned the first time
  118. // first returned value (any processes)
  119. [coin3_s1_p1] v3=0 -> (v3'=1);
  120. [coin3_s2_p1] v3=0 -> (v3'=1);
  121. [coin3_s1_p2] v3=0 -> (v3'=2);
  122. [coin3_s2_p2] v3=0 -> (v3'=2);
  123. // later values returned
  124. [coin3_s1_p1] v3=1 -> true; // good behaviour
  125. [coin3_s2_p1] v3=1 -> true; // good behaviour
  126. [coin3_s1_p2] v3=2 -> true; // good behaviour
  127. [coin3_s2_p2] v3=2 -> true; // good behaviour
  128. [coin3_s1_p1] v3=2 -> (c3'=1); // error
  129. [coin3_s2_p1] v3=2 -> (c3'=1); // error
  130. [coin3_s1_p2] v3=1 -> (c3'=1); // error
  131. [coin3_s2_p2] v3=1 -> (c3'=1); // error
  133. endmodule
  135. // coin 4 is of no use because of number of rounds
  137. // Labels
  138. label "one_proc_err" = (s1=5 | s2=5);
  139. label "one_coin_ok" = (c1=0 | c2=0 | c3=0);