0.04/0.12 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.04/0.14 % Command : run_portfolio.sh /export/starexec/sandbox/benchmark/theBenchmark.p /export/starexec/sandbox/tmp/tmp.kVQGgxtinv 0.14/0.35 % Computer : n021.cluster.edu 0.14/0.35 % Model : x86_64 x86_64 0.14/0.35 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz 0.14/0.35 % Memory : 8042.1875MB 0.14/0.35 % OS : Linux 3.10.0-693.el7.x86_64 0.14/0.35 % CPULimit : 960 0.14/0.35 % DateTime : Thu Jul 2 08:49:52 EDT 2020 0.14/0.35 % CPUTime : 0.14/0.35 % Running portfolio for 120 s 0.14/0.35 % File : /export/starexec/sandbox/benchmark/theBenchmark.p 0.14/0.35 % Number of cores: 8 0.14/0.35 % Python version: Python 3.6.8 0.14/0.36 % Running in FO mode 0.79/1.01 % Running /export/starexec/sandbox/solver/bin/fo/fo7.sh for 25 0.79/1.01 % Solved by: fo/fo7.sh 0.79/1.01 To remain in the chosen logic fragment, unification with booleans has been disabled. 0.79/1.01 % done 1077 iterations in 0.545s 0.79/1.01 % SZS status Theorem for '/export/starexec/sandbox/benchmark/theBenchmark.p' 0.79/1.01 % SZS output start Refutation 0.79/1.01 tff(co0, conjecture, (pred_attacker(name_objective))). 0.79/1.01 tff(zf_stmt_0, negated_conjecture, (~pred_attacker(name_objective))). 0.79/1.01 tff('0', plain, ~ pred_attacker(name_objective), 0.79/1.01 inference('cnf', [status(esa)], [zf_stmt_0])). 0.79/1.01 tff(ax82, axiom, 0.79/1.01 (pred_attacker(tuple_B_out_1(name_v, 0.79/1.01 constr_xor(constr_concat(name_objective, 0.79/1.01 constr_C(name_objective)), 0.79/1.01 constr_RC4(name_v,name_Kab)))))). 0.79/1.01 tff('1', plain, 0.79/1.01 pred_attacker( 0.79/1.01 tuple_B_out_1(name_v, 0.79/1.01 constr_xor(constr_concat(name_objective, constr_C(name_objective)), 0.79/1.01 constr_RC4(name_v, name_Kab)))), 0.79/1.01 inference('cnf', [status(esa)], [ax82])). 0.79/1.01 tff(ax50, axiom, 0.79/1.01 (![VAR_X_8,VAR_Y_9]: 0.79/1.01 (constr_xor(VAR_X_8,VAR_Y_9) = constr_xor(VAR_Y_9,VAR_X_8)))). 0.79/1.01 tff('2', plain, ![X31, X32]: constr_xor(X32, X31) = constr_xor(X31, X32), 0.79/1.01 inference('cnf', [status(esa)], [ax50])). 0.79/1.01 tff('3', plain, 0.79/1.01 pred_attacker( 0.79/1.01 tuple_B_out_1(name_v, 0.79/1.01 constr_xor(constr_RC4(name_v, name_Kab), 0.79/1.01 constr_concat(name_objective, constr_C(name_objective))))), 0.79/1.01 inference('demod', [status(thm)], ['1', '2'])). 0.79/1.01 tff(ax72, axiom, 0.79/1.01 (![VAR_V_81,VAR_V_82]: 0.79/1.01 (pred_attacker(tuple_B_out_1(VAR_V_81,VAR_V_82)) => 0.79/1.01 pred_attacker(VAR_V_82)))). 0.79/1.01 tff('4', plain, 0.79/1.01 ![X48, X49]: 0.79/1.01 ( pred_attacker(X48) | ~ pred_attacker(tuple_B_out_1(X49, X48))), 0.79/1.01 inference('cnf', [status(esa)], [ax72])). 0.79/1.01 tff('5', plain, 0.79/1.01 pred_attacker( 0.79/1.01 constr_xor(constr_RC4(name_v, name_Kab), 0.79/1.01 constr_concat(name_objective, constr_C(name_objective)))), 0.79/1.01 inference('sup-', [status(thm)], ['3', '4'])). 0.79/1.01 tff(ax48, axiom, 0.79/1.01 (![VAR_X_11]: (constr_ZERO = constr_xor(VAR_X_11,VAR_X_11)))). 0.79/1.01 tff('6', plain, ![X40]: constr_ZERO = constr_xor(X40, X40), 0.79/1.01 inference('cnf', [status(esa)], [ax48])). 0.79/1.01 tff(ax51, axiom, 0.79/1.01 (![VAR_X_0X30,VAR_Y_0X30,VAR_Z_0X30]: 0.79/1.01 (constr_xor(VAR_X_0X30,constr_xor(VAR_Y_0X30,VAR_Z_0X30)) = 0.79/1.01 constr_xor(constr_xor(VAR_X_0X30,VAR_Y_0X30),VAR_Z_0X30)))). 0.79/1.01 tff('7', plain, 0.79/1.01 ![X28, X29, X30]: 0.79/1.01 constr_xor(X28, constr_xor(X29, X30)) 0.79/1.01 = constr_xor(constr_xor(X28, X29), X30), 0.79/1.01 inference('cnf', [status(esa)], [ax51])). 0.79/1.01 tff('8', plain, 0.79/1.01 ![X0, X1]: 0.79/1.01 constr_xor(X1, constr_xor(X1, X0)) = constr_xor(constr_ZERO, X0), 0.79/1.01 inference('sup+', [status(thm)], ['6', '7'])). 0.79/1.01 tff('9', plain, ![X31, X32]: constr_xor(X32, X31) = constr_xor(X31, X32), 0.79/1.01 inference('cnf', [status(esa)], [ax50])). 0.79/1.01 tff(ax49, axiom, 0.79/1.01 (![VAR_X_10X30]: (constr_xor(VAR_X_10X30,constr_ZERO) = VAR_X_10X30))). 0.79/1.01 tff('10', plain, ![X2]: constr_xor(X2, constr_ZERO) = X2, 0.79/1.01 inference('cnf', [status(esa)], [ax49])). 0.79/1.01 tff('11', plain, ![X0]: constr_xor(constr_ZERO, X0) = X0, 0.79/1.01 inference('sup+', [status(thm)], ['9', '10'])). 0.79/1.01 tff('12', plain, ![X0, X1]: constr_xor(X1, constr_xor(X1, X0)) = X0, 0.79/1.01 inference('demod', [status(thm)], ['8', '11'])). 0.79/1.01 tff(ax52, axiom, 0.79/1.01 (![VAR_V_31,VAR_V_32]: 0.79/1.01 ((pred_attacker(VAR_V_31) & pred_attacker(VAR_V_32)) => 0.79/1.01 pred_attacker(constr_xor(VAR_V_31,VAR_V_32))))). 0.79/1.01 tff('13', plain, 0.79/1.01 ![X24, X25]: 0.79/1.01 (~ pred_attacker(X24) 0.79/1.01 | ~ pred_attacker(X25) 0.79/1.01 | pred_attacker(constr_xor(X24, X25))), 0.79/1.01 inference('cnf', [status(esa)], [ax52])). 0.79/1.01 tff('14', plain, 0.79/1.01 ![X0, X1]: 0.79/1.01 ( pred_attacker(X0) 0.79/1.01 | ~ pred_attacker(constr_xor(X1, X0)) 0.79/1.01 | ~ pred_attacker(X1)), 0.79/1.01 inference('sup+', [status(thm)], ['12', '13'])). 0.79/1.01 tff('15', plain, 0.79/1.01 (~ pred_attacker(constr_RC4(name_v, name_Kab)) 0.79/1.01 | pred_attacker( 0.79/1.01 constr_concat(name_objective, constr_C(name_objective)))), 0.79/1.01 inference('sup-', [status(thm)], ['5', '14'])). 0.79/1.01 tff('16', plain, ![X40]: constr_ZERO = constr_xor(X40, X40), 0.79/1.01 inference('cnf', [status(esa)], [ax48])). 0.79/1.01 tff(ax47, axiom, 0.79/1.01 (![VAR_X_12,VAR_Y_13]: 0.79/1.01 (constr_C(constr_xor(VAR_X_12,VAR_Y_13)) = 0.79/1.01 constr_xor(constr_C(VAR_X_12),constr_C(VAR_Y_13))))). 0.79/1.01 tff('17', plain, 0.79/1.01 ![X22, X23]: 0.79/1.01 constr_C(constr_xor(X22, X23)) 0.79/1.01 = constr_xor(constr_C(X22), constr_C(X23)), 0.79/1.01 inference('cnf', [status(esa)], [ax47])). 0.79/1.01 tff('18', plain, ![X0]: constr_C(constr_xor(X0, X0)) = constr_ZERO, 0.79/1.01 inference('sup+', [status(thm)], ['16', '17'])). 0.79/1.01 tff('19', plain, ![X40]: constr_ZERO = constr_xor(X40, X40), 0.79/1.01 inference('cnf', [status(esa)], [ax48])). 0.79/1.01 tff('20', plain, constr_C(constr_ZERO) = constr_ZERO, 0.79/1.01 inference('demod', [status(thm)], ['18', '19'])). 0.79/1.01 tff(ax59, axiom, 0.79/1.01 (![VAR_V_53]: 0.79/1.01 (pred_attacker(VAR_V_53) => 0.79/1.01 pred_attacker(tuple_enc_oracle_in_1(VAR_V_53))))). 0.79/1.01 tff('21', plain, 0.79/1.01 ![X7]: ( pred_attacker(tuple_enc_oracle_in_1(X7)) | ~ pred_attacker(X7)), 0.79/1.01 inference('cnf', [status(esa)], [ax59])). 0.79/1.01 tff(ax81, axiom, 0.79/1.01 (![VAR_M_150X30]: 0.79/1.01 (pred_attacker(tuple_enc_oracle_in_1(VAR_M_150X30)) => 0.79/1.01 pred_attacker(tuple_enc_oracle_out_2(name_v, 0.79/1.01 constr_xor(constr_concat(VAR_M_150X30, 0.79/1.01 constr_C( 0.79/1.01 VAR_M_150X30)), 0.79/1.01 constr_RC4(name_v, 0.79/1.01 name_Kab))))))). 0.79/1.01 tff('22', plain, 0.79/1.01 ![X41]: 0.79/1.01 ( pred_attacker( 0.79/1.01 tuple_enc_oracle_out_2(name_v, 0.79/1.01 constr_xor(constr_concat(X41, constr_C(X41)), 0.79/1.01 constr_RC4(name_v, name_Kab)))) 0.79/1.01 | ~ pred_attacker(tuple_enc_oracle_in_1(X41))), 0.79/1.01 inference('cnf', [status(esa)], [ax81])). 0.79/1.01 tff('23', plain, 0.79/1.01 ![X0]: 0.79/1.01 (~ pred_attacker(X0) 0.79/1.01 | pred_attacker( 0.79/1.01 tuple_enc_oracle_out_2(name_v, 0.79/1.01 constr_xor(constr_concat(X0, constr_C(X0)), 0.79/1.01 constr_RC4(name_v, name_Kab))))), 0.79/1.01 inference('sup-', [status(thm)], ['21', '22'])). 0.79/1.01 tff('24', plain, 0.79/1.01 ( pred_attacker( 0.79/1.01 tuple_enc_oracle_out_2(name_v, 0.79/1.01 constr_xor(constr_concat(constr_ZERO, constr_ZERO), 0.79/1.01 constr_RC4(name_v, name_Kab)))) 0.79/1.01 | ~ pred_attacker(constr_ZERO)), 0.79/1.01 inference('sup+', [status(thm)], ['20', '23'])). 0.79/1.01 tff('25', plain, ![X40]: constr_ZERO = constr_xor(X40, X40), 0.79/1.01 inference('cnf', [status(esa)], [ax48])). 0.79/1.01 tff(ax46, axiom, 0.79/1.01 (![VAR_X1_0X30,VAR_X2_0X30,VAR_Y1_0X30,VAR_Y2_0X30]: 0.79/1.01 (constr_xor(constr_concat(VAR_X1_0X30,VAR_Y1_0X30), 0.79/1.01 constr_concat(VAR_X2_0X30,VAR_Y2_0X30)) = 0.79/1.01 constr_concat(constr_xor(VAR_X1_0X30,VAR_X2_0X30), 0.79/1.01 constr_xor(VAR_Y1_0X30,VAR_Y2_0X30))))). 0.79/1.01 tff('26', plain, 0.79/1.01 ![X44, X45, X46, X47]: 0.79/1.01 constr_xor(constr_concat(X44, X46), constr_concat(X45, X47)) 0.79/1.01 = constr_concat(constr_xor(X44, X45), constr_xor(X46, X47)), 0.79/1.01 inference('cnf', [status(esa)], [ax46])). 0.79/1.01 tff('27', plain, 0.79/1.01 ![X0, X1]: 0.79/1.01 constr_ZERO = constr_concat(constr_xor(X1, X1), constr_xor(X0, X0)), 0.79/1.01 inference('sup+', [status(thm)], ['25', '26'])). 0.79/1.01 tff('28', plain, ![X40]: constr_ZERO = constr_xor(X40, X40), 0.79/1.01 inference('cnf', [status(esa)], [ax48])). 0.79/1.01 tff('29', plain, ![X40]: constr_ZERO = constr_xor(X40, X40), 0.79/1.01 inference('cnf', [status(esa)], [ax48])). 0.79/1.01 tff('30', plain, constr_ZERO = constr_concat(constr_ZERO, constr_ZERO), 0.79/1.01 inference('demod', [status(thm)], ['27', '28', '29'])). 0.79/1.01 tff('31', plain, ![X0]: constr_xor(constr_ZERO, X0) = X0, 0.79/1.01 inference('sup+', [status(thm)], ['9', '10'])). 0.79/1.01 tff(ax62, axiom, (pred_attacker(constr_ZERO))). 0.79/1.01 tff('32', plain, pred_attacker(constr_ZERO), 0.79/1.01 inference('cnf', [status(esa)], [ax62])). 0.79/1.01 tff('33', plain, 0.79/1.01 pred_attacker( 0.79/1.01 tuple_enc_oracle_out_2(name_v, constr_RC4(name_v, name_Kab))), 0.79/1.01 inference('demod', [status(thm)], ['24', '30', '31', '32'])). 0.79/1.01 tff(ax58, axiom, 0.79/1.01 (![VAR_V_49,VAR_V_50X30]: 0.79/1.01 (pred_attacker(tuple_enc_oracle_out_2(VAR_V_49,VAR_V_50X30)) => 0.79/1.01 pred_attacker(VAR_V_50X30)))). 0.79/1.01 tff('34', plain, 0.79/1.01 ![X38, X39]: 0.79/1.01 ( pred_attacker(X38) 0.79/1.01 | ~ pred_attacker(tuple_enc_oracle_out_2(X39, X38))), 0.79/1.01 inference('cnf', [status(esa)], [ax58])). 0.79/1.01 tff('35', plain, pred_attacker(constr_RC4(name_v, name_Kab)), 0.79/1.01 inference('sup-', [status(thm)], ['33', '34'])). 0.79/1.01 tff('36', plain, 0.79/1.01 pred_attacker(constr_concat(name_objective, constr_C(name_objective))), 0.79/1.01 inference('demod', [status(thm)], ['15', '35'])). 0.79/1.01 tff(ax45, axiom, 0.79/1.01 (![VAR_X_14,VAR_Y_15]: 0.79/1.01 (tuple_2(VAR_X_14,VAR_Y_15) = 0.79/1.01 constr_split(constr_concat(VAR_X_14,VAR_Y_15))))). 0.79/1.01 tff('37', plain, 0.79/1.01 ![X42, X43]: tuple_2(X42, X43) = constr_split(constr_concat(X42, X43)), 0.79/1.01 inference('cnf', [status(esa)], [ax45])). 0.79/1.01 tff(ax54, axiom, 0.79/1.01 (![VAR_V_34]: 0.79/1.01 (pred_attacker(VAR_V_34) => pred_attacker(constr_split(VAR_V_34))))). 0.79/1.01 tff('38', plain, 0.79/1.01 ![X11]: ( pred_attacker(constr_split(X11)) | ~ pred_attacker(X11)), 0.79/1.01 inference('cnf', [status(esa)], [ax54])). 0.79/1.01 tff('39', plain, 0.79/1.01 ![X0, X1]: 0.79/1.01 ( pred_attacker(tuple_2(X1, X0)) 0.79/1.01 | ~ pred_attacker(constr_concat(X1, X0))), 0.79/1.01 inference('sup+', [status(thm)], ['37', '38'])). 0.79/1.01 tff('40', plain, 0.79/1.01 pred_attacker(tuple_2(name_objective, constr_C(name_objective))), 0.79/1.01 inference('sup-', [status(thm)], ['36', '39'])). 0.79/1.01 tff(ax74, axiom, 0.79/1.01 (![VAR_V_98,VAR_V_99]: 0.79/1.01 (pred_attacker(tuple_2(VAR_V_98,VAR_V_99)) => pred_attacker(VAR_V_98)))). 0.79/1.01 tff('41', plain, 0.79/1.01 ![X26, X27]: ( pred_attacker(X26) | ~ pred_attacker(tuple_2(X26, X27))), 0.79/1.01 inference('cnf', [status(esa)], [ax74])). 0.79/1.01 tff('42', plain, pred_attacker(name_objective), 0.79/1.01 inference('sup-', [status(thm)], ['40', '41'])). 0.79/1.01 tff('43', plain, $false, inference('demod', [status(thm)], ['0', '42'])). 0.79/1.01 0.79/1.01 % SZS output end Refutation 0.79/1.01 0.79/1.02 % Zipperpin 1.5 exiting 0.79/1.02 EOF