scyther/src/main-switches.c

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/**
* OBSOLETE SWITCH HANDLING
*
* However, there are some switches here that are not yet found in switches.c
*/
/**
* \mainpage
*
* \section intro Introduction
*
* Scyther is a model checker for security protocols.
*
* \section install Installation
*
* How to install Scyther.
*
* \section exit Exit codes
*
* 0 Okay No attack found, claims encountered
*
* 1 Error Something went wrong (error) E.g. switch error, or scenario ran out.
*
* 2 Okay No attack found (because) no claims encountered
*
* 3 Okay Attack found
*
* However, if the --scenario=-1 switch is used, the exit code is used to return the number of scenarios.
*
* \section coding Coding conventions
*
* Usually, each source file except main.c has an myfileInit() and myfileDone() function
* available. These allow any initialisation and destruction of required structures.
*
* GNU indent rules are used, but K&R derivatives are allowed as well. Conversion can
* be done for any style using the GNU indent program.
*/
enum exittypes
{ EXIT_NOATTACK = 0, EXIT_ERROR = 1, EXIT_NOCLAIM = 2, EXIT_ATTACK = 3 };
#include <stdlib.h>
#include <stdio.h>
#include <time.h>
#include <limits.h>
#include "system.h"
#include "debug.h"
#include "modelchecker.h"
#include "memory.h"
#include "symbol.h"
#include "pheading.h"
#include "symbol.h"
#include "parser.h"
#include "tac.h"
#include "timer.h"
#include "compiler.h"
#include "latex.h"
#include "output.h"
#include "binding.h"
#include "version.h"
#include "specialterm.h"
#include "argtable2.h"
// The global system state
System sys;
extern struct tacnode *spdltac;
extern int mgu_match;
void scanner_cleanup (void);
void strings_cleanup (void);
int yyparse (void);
void MC_incRuns (const System sys);
void MC_incTraces (const System sys);
void MC_single (const System sys);
int modelCheck (const System sys);
//! The name of this program.
const char *progname = "scyther";
//! Release tag name.
/**
* Note that this is only referenced in the help output of the commandline program.
* \todo Come up with a useful solution for release names.
*/
const char *releasetag = SVNVERSION;
//! The number of seconds a test is allowed to run
static int time_limit_seconds;
//! The main body, as called by the environment.
int
main (int argc, char **argv)
{
struct arg_file *infile =
arg_file0 (NULL, NULL, "FILE", "input file ('-' for stdin)");
struct arg_file *outfile = arg_file0 ("o", "output", "FILE",
"output file (default is stdout)");
struct arg_lit *switch_arachne =
arg_lit0 ("a", "arachne", "use Arachne engine");
struct arg_lit *switch_proof =
arg_lit0 ("P", "proof", "generate proof output");
struct arg_str *switch_check = arg_str0 (NULL, "check", "CLAIM",
"claim type to check (default is all)");
struct arg_int *switch_scenario = arg_int0 ("s", "scenario", NULL,
"select a scenario instance 1-n (-1 to count)");
struct arg_int *switch_scenario_size = arg_int0 ("S", "scenario-size", NULL,
"scenario size (fixed trace prefix length)");
struct arg_int *switch_traversal_method = arg_int0 ("t", "traverse", NULL,
"set traversal method, partial order reduction (default is 12)");
struct arg_int *switch_match_method =
arg_int0 ("m", "match", NULL, "matching method (default is 0)");
struct arg_lit *switch_clp =
arg_lit0 ("c", "cl", "use constraint logic, non-associative");
struct arg_int *switch_pruning_method = arg_int0 ("p", "prune", NULL,
"pruning method (default is 2)");
struct arg_int *switch_prune_trace_length =
arg_int0 ("l", "max-length", NULL,
"prune traces longer than <int> events.");
struct arg_int *switch_prune_proof_depth = arg_int0 ("d", "max-depth", NULL,
"prune proof deeper than <int> splits.");
struct arg_lit *switch_incremental_trace_length =
arg_lit0 (NULL, "increment-traces",
"incremental search using the length of the traces.");
struct arg_int *switch_maximum_runs =
arg_int0 ("r", "max-runs", NULL, "create at most <int> runs");
struct arg_lit *switch_incremental_runs = arg_lit0 (NULL, "increment-runs",
"incremental search using the number of runs");
struct arg_int *switch_goal_select_method =
arg_int0 (NULL, "goal-select", NULL,
"use goal selection method <int> (default 3)");
struct arg_lit *switch_latex_output =
arg_lit0 (NULL, "latex", "output attacks in LaTeX format");
struct arg_lit *switch_empty =
arg_lit0 ("e", "empty", "do not generate output");
struct arg_lit *switch_progress_bar =
arg_lit0 ("b", "progress-bar", "show progress bar");
struct arg_lit *switch_state_space_graph =
arg_lit0 (NULL, "state-space", "output state space graph");
struct arg_lit *switch_implicit_choose = arg_lit0 (NULL, "implicit-choose",
"allow implicit choose events (useful for few runs)");
struct arg_lit *switch_choose_first =
arg_lit0 (NULL, "choose-first", "priority to any choose events");
struct arg_lit *switch_enable_read_symmetries =
arg_lit0 (NULL, "read-symm", "enable read symmetry reductions");
struct arg_lit *switch_disable_agent_symmetries =
arg_lit0 (NULL, "no-agent-symm",
"disable agent symmetry reductions");
struct arg_lit *switch_enable_symmetry_order = arg_lit0 (NULL, "symm-order",
"enable ordering symmetry reductions");
struct arg_lit *switch_disable_noclaims_reductions =
arg_lit0 (NULL, "no-noclaims-red",
"disable no more claims reductions");
struct arg_lit *switch_disable_endgame_reductions =
arg_lit0 (NULL, "no-endgame-red", "disable endgame reductions");
struct arg_lit *switch_disable_claim_symmetry =
arg_lit0 (NULL, "no-claimsymmetry-red",
"disable claim symmetry reductions");
struct arg_lit *switch_summary = arg_lit0 (NULL, "summary",
"show summary on stdout instead of stderr");
struct arg_lit *switch_echo =
arg_lit0 ("E", "echo", "echo command line to stdout");
struct arg_int *switch_timer =
arg_int0 ("T", "timer", NULL, "maximum time in seconds");
#ifdef DEBUG
struct arg_int *switch_por_parameter =
arg_int0 (NULL, "pp", NULL, "POR parameter");
struct arg_lit *switch_debug_indent = arg_lit0 ("I", "debug-indent",
"indent the debug output using trace length");
struct arg_int *switch_debug_level =
arg_int0 ("D", "debug", NULL, "set debug level (default is 0)");
#endif
struct arg_lit *help = arg_lit0 (NULL, "help", "print this help and exit");
struct arg_lit *version =
arg_lit0 (NULL, "version", "print version information and exit");
struct arg_end *end = arg_end (30);
void *argtable[] = {
infile,
outfile,
switch_empty,
switch_proof,
switch_state_space_graph,
switch_scenario,
switch_scenario_size,
switch_latex_output,
switch_summary,
switch_echo,
switch_progress_bar,
switch_arachne,
switch_check,
switch_traversal_method,
switch_match_method,
switch_clp,
switch_timer,
switch_pruning_method,
switch_prune_proof_depth,
switch_prune_trace_length, switch_incremental_trace_length,
switch_maximum_runs, switch_incremental_runs,
switch_goal_select_method,
switch_implicit_choose,
switch_choose_first,
switch_enable_read_symmetries,
switch_enable_symmetry_order,
switch_disable_agent_symmetries,
switch_disable_noclaims_reductions,
switch_disable_endgame_reductions,
switch_disable_claim_symmetry,
#ifdef DEBUG
switch_por_parameter,
switch_debug_indent,
switch_debug_level,
#endif
help, version,
end
};
int nerrors;
int exitcode = EXIT_NOATTACK;
/* verify the argtable[] entries were allocated sucessfully */
if (arg_nullcheck (argtable) != 0)
{
/* NULL entries were detected, some allocations must have failed */
fprintf (stderr, "%s: insufficient memory\n", progname);
exitcode = EXIT_ERROR;
goto exit;
}
/* defaults
* set any command line default values prior to parsing */
#ifdef DEBUG
switch_debug_level->ival[0] = 0;
switch_por_parameter->ival[0] = 0;
#endif
switch_scenario->ival[0] = 0;
switch_scenario_size->ival[0] = 0;
switch_traversal_method->ival[0] = 12;
switch_match_method->ival[0] = 0;
switch_prune_trace_length->ival[0] = -1;
switch_prune_proof_depth->ival[0] = -1;
switch_maximum_runs->ival[0] = INT_MAX;
switch_pruning_method->ival[0] = 2;
switch_goal_select_method->ival[0] = -1;
switch_timer->ival[0] = 0;
/* Parse the command line as defined by argtable[] */
nerrors = arg_parse (argc, argv, argtable);
/* special case: '--help' takes precedence over error reporting */
if (help->count > 0)
{
printf ("Usage: %s ", progname);
arg_print_syntax (stdout, argtable, "\n");
printf
("This program can model check security protocols for various\n");
printf ("properties, given a finite scenario.\n\n");
arg_print_glossary (stdout, argtable, " %-25s %s\n");
exitcode = 0;
goto exit;
}
/* special case: '--version' takes precedence error reporting */
if (version->count > 0)
{
printf ("'%s' model checker for security protocols.\n", progname);
#ifdef DEBUG
printf ("Revision %s, compiled with debugging support.\n", releasetag);
#else
printf ("Revision %s\n", releasetag);
#endif
printf ("December 2003--, Cas Cremers\n");
exitcode = 0;
goto exit;
}
/* If the parser returned any errors then display them and exit */
if (nerrors > 0)
{
/* Display the error details contained in the arg_end struct. */
arg_print_errors (stdout, end, progname);
printf ("Try '%s --help' for more information.\n", progname);
exitcode = EXIT_ERROR;
goto exit;
}
/* special case: uname with no command line options induces brief help */
if (argc == 1)
{
printf ("Try '%s --help' for more information.\n", progname);
exitcode = 0;
goto exit;
}
/*
* Arguments have been parsed by argtable,
* continue with main code.
*/
/* Lutger-tries-to-test-with-broken-methods detector */
if (switch_clp->count > 0)
{
fprintf (stderr,
"For the time being, this method is not supported, \n");
fprintf (stderr, "as too many changes have been made to the normal \n");
fprintf (stderr,
"matching logic, and CL simply isn't reliable in \nmany ");
fprintf (stderr, "ways. Try again in a few weeks.\n");
exit (0);
}
/* redirect in- and output according to supplied filenames */
/* output */
if (outfile->count > 0)
{
/* try to open */
if (!freopen (outfile->filename[0], "w", stdout))
{
fprintf (stderr, "Could not create output file '%s'.\n",
outfile->filename[0]);
exit (1);
}
}
/* input */
if (infile->count > 0)
{
/* check for the single dash */
if (strcmp (infile->filename[0], "-"))
{
if (!freopen (infile->filename[0], "r", stdin))
{
fprintf (stderr, "Could not open input file '%s'.\n",
infile->filename[0]);
exit (1);
}
}
}
/* handle debug level */
#ifdef DEBUG
debugSet (switch_debug_level->ival[0]);
#else
debugSet (0);
#endif
/* Initialize memory routines */
memInit ();
/* initialize symbols */
termsInit ();
termmapsInit ();
termlistsInit ();
knowledgeInit ();
symbolsInit ();
tacInit ();
/*
* ------------------------------------------------
* generate system
* ------------------------------------------------
*/
sys = systemInit ();
if (switch_arachne->count > 0)
{
switches.engine = ARACHNE_ENGINE;
bindingInit (sys);
}
/* init compiler for this system */
compilerInit (sys);
/* transfer command line */
switches.argc = argc;
switches.argv = argv;
if (switch_echo->count > 0)
{
/* print command line */
fprintf (stdout, "command\t");
commandlinePrint (stdout, sys);
fprintf (stdout, "\n");
}
/* handle switches */
switches.runs = switch_maximum_runs->ival[0]; /* maximum number of runs */
if (switch_implicit_choose->count > 0)
/* allow implicit chooses */
switches.forceChoose = 0;
if (switch_choose_first->count > 0)
switches.chooseFirst = 1; /* priority to chooses */
if (switch_enable_read_symmetries->count > 0)
{
if (switch_enable_symmetry_order->count > 0)
error
("--read-symm and --symm-order cannot be used at the same time.");
switches.readSymmetries = 1;
}
if (switch_enable_symmetry_order->count > 0)
switches.orderSymmetries = 1; /* enable symmetry order */
if (switch_disable_agent_symmetries->count > 0)
switches.agentSymmetries = 0; /* disable agent symmetry order */
if (switch_disable_noclaims_reductions->count > 0)
switches.pruneNomoreClaims = 0; /* disable no more claims cutter */
if (switch_disable_endgame_reductions->count > 0)
switches.reduceEndgame = 0; /* disable endgame cutter */
if (switch_disable_claim_symmetry->count > 0)
switches.reduceClaims = 0; /* disable claim symmetry cutter */
if (switch_summary->count > 0)
switches.output = SUMMARY; /* report summary on stdout */
if (switch_proof->count > 0)
switches.output = PROOF; /* report proof on stdout (for arachne only) */
/*
* The scenario selector has an important side effect; when it is non-null,
* any scenario traversing selects chooses first.
*/
switches.scenario = switch_scenario->ival[0]; /* scenario selector */
switches.scenarioSize = switch_scenario_size->ival[0]; /* scenario size */
if (switches.scenario == 0 && switches.scenarioSize > 0)
{
/* no scenario, but a size is set. so override */
#ifdef DEBUG
warning ("Scanning scenarios.");
#endif
switches.scenario = -1;
}
if (switches.scenario < 0)
{
switches.output = SCENARIOS;
}
if (switches.scenario != 0 && switches.scenarioSize == 0)
{
#ifdef DEBUG
warning
("Scenario selection without trace prefix length implies --choose-first.");
#endif
switches.chooseFirst = 1;
}
#ifdef DEBUG
switches.switchP = switch_por_parameter->ival[0];
#endif
switches.latex = switch_latex_output->count;
sys->know = emptyKnowledge ();
/* parse compiler-dependant switches */
if (switch_check->count > 0)
{
Term claim;
#ifdef DEBUG
if (lookup (switch_check->sval[0]) == NULL)
{
globalError++;
warning ("Could not find this string at all in:");
symbolPrintAll ();
eprintf ("\n");
globalError--;
}
#endif
claim = findGlobalConstant (switch_check->sval[0]);
if (claim == NULL)
error ("Unknown claim type to check.");
if (inTermlist (claim->stype, TERM_Claim))
switches.filterClaim = claim;
else
error ("Claim type to check is not a claim.");
}
/* parse input */
yyparse ();
#ifdef DEBUG
if (DEBUGL (1))
tacPrint (spdltac);
#endif
/* compile */
if (switches.engine != ARACHNE_ENGINE)
{
// Compile as many runs as possible
compile (spdltac, switch_maximum_runs->ival[0]);
}
else
{
// Compile no runs for Arachne
compile (spdltac, 0);
}
scanner_cleanup ();
/* preprocess */
preprocess (sys);
#ifdef DEBUG
if (DEBUGL (1))
{
printf ("\nCompilation yields:\n\n");
printf ("untrusted agents: ");
termlistPrint (sys->untrusted);
printf ("\n");
knowledgePrint (sys->know);
printf ("inverses: ");
knowledgeInversesPrint (sys->know);
printf ("\n");
locVarPrint (sys->locals);
protocolsPrint (sys->protocols);
printf ("\nInstantiated runs:\n\n");
runsPrint (sys);
}
#endif
/* allocate memory for traces, based on runs */
systemStart (sys);
sys->traceKnow[0] = sys->know; // store initial knowledge
/* add parameters to system */
switches.clp = (switch_clp->count > 0 ? 1 : 0);
switches.traverse = switch_traversal_method->ival[0];
switches.match = switch_match_method->ival[0];
mgu_match = switches.match;
switches.prune = switch_pruning_method->ival[0];
time_limit_seconds = switch_timer->ival[0];
set_time_limit (switch_timer->ival[0]);
if (switch_progress_bar->count > 0)
/* enable progress display */
switches.reportStates = 50000;
else
/* disable progress display */
switches.reportStates = 0;
if (switch_state_space_graph->count > 0)
{
/* enable state space graph output */
switches.output = STATESPACE; //!< New method
}
if (switch_empty->count > 0)
switches.output = EMPTY;
if (switch_prune_proof_depth->ival[0] >= 0)
switches.maxproofdepth = switch_prune_proof_depth->ival[0];
if (switch_prune_trace_length->ival[0] >= 0)
switches.maxtracelength = switch_prune_trace_length->ival[0];
if (switch_goal_select_method->ival[0] >= 0)
switches.heuristic = switch_goal_select_method->ival[0];
#ifdef DEBUG
/* in debugging mode, some extra switches */
if (switch_debug_indent->count > 0)
indentActivate ();
if (DEBUGL (1))
printf ("Using traversal method %i.\n", switches.traverse);
#else
/* non-debug defaults */
switches.reportMemory = 0;
#endif
/*
* ---------------------------------------
* Switches consistency checking.
* ---------------------------------------
*/
/* Latex only makes sense for attacks */
if (switches.latex && switches.output != ATTACK)
{
error ("Scyther can only generate LaTeX output for attacks.");
}
/* Incremental stuff only works for attack locating */
if (switch_incremental_runs->count > 0 ||
switch_incremental_trace_length->count > 0)
{
if (switches.output != ATTACK && switches.output != EMPTY)
{
error ("Incremental traversal only for empty or attack output.");
}
}
#ifdef DEBUG
if (DEBUGL (4))
{
warning ("Selected output method is %i", switches.output);
}
#endif
if (switches.engine == ARACHNE_ENGINE)
{
arachneInit (sys);
}
/*
* ---------------------------------------
* Start real stuff
* ---------------------------------------
*/
/* latex header? */
if (switches.latex)
latexInit (sys, argc, argv);
/* model check system */
#ifdef DEBUG
if (DEBUGL (1))
warning ("Start modelchecking system.");
#endif
if (switch_incremental_runs->count > 0)
{
MC_incRuns (sys);
}
else
{
if (switch_incremental_trace_length->count > 0)
{
MC_incTraces (sys);
}
else
{
MC_single (sys);
}
}
/*
* ---------------------------------------
* After checking the system, results
* ---------------------------------------
*/
/* Display shortest attack, if any */
if (sys->attack != NULL && sys->attack->length != 0)
{
if (switches.output == ATTACK)
{
attackDisplay (sys);
}
/* mark exit code */
exitcode = EXIT_ATTACK;
}
else
{
/* check if there is a claim type that was never reached */
Claimlist cl_scan;
cl_scan = sys->claimlist;
while (cl_scan != NULL)
{
if (cl_scan->failed == STATES0)
{
/* mark exit code */
exitcode = EXIT_NOCLAIM;
}
cl_scan = cl_scan->next;
}
}
/* latex closeup */
if (switches.latex)
latexDone (sys);
/* Transfer any scenario counting to the exit code,
* assuming that there is no error. */
if (exitcode != EXIT_ERROR && switches.scenario < 0)
{
exitcode = sys->countScenario;
}
/*
* Now we clean up any memory that was allocated.
*/
if (switches.engine == ARACHNE_ENGINE)
{
arachneDone ();
bindingDone ();
}
knowledgeDestroy (sys->know);
systemDone (sys);
compilerDone ();
/* done symbols */
tacDone ();
symbolsDone ();
knowledgeDone ();
termlistsDone ();
termmapsDone ();
termsDone ();
/* memory clean up? */
strings_cleanup ();
memDone ();
exit:
/* deallocate each non-null entry in argtable[] */
arg_free (argtable);
return exitcode;
}
//! Display time and state space size information using ASCII.
/**
* Displays also whether an attack was found or not.
*/
void
timersPrint (const System sys)
{
Claimlist cl_scan;
int anyclaims;
// #define NOTIMERS
/* display stats */
if (switches.output != SUMMARY)
{
globalError++;
}
/* states traversed */
eprintf ("states\t");
statesPrintShort (sys);
eprintf ("\n");
/* scenario info */
if (switches.scenario > 0)
{
eprintf ("scen_st\t");
statesFormat (sys->statesScenario);
eprintf ("\n");
}
/* flag
*
* L n Attack of length <n>
* None failed claim
* NoClaim no claims
*/
eprintf ("attack\t");
if (sys->claims == STATES0)
{
eprintf ("NoClaim\n");
}
else
{
if (sys->failed != STATES0)
eprintf ("L:%i\n", attackLength (sys->attack));
else
eprintf ("None\n");
}
#ifndef NOTIMERS
/* print time */
double seconds;
seconds = (double) clock () / CLOCKS_PER_SEC;
eprintf ("time\t%.3e\n", seconds);
/* states per second */
eprintf ("st/sec\t");
if (seconds > 0)
{
eprintf ("%.3e\n", statesDouble (sys->states) / seconds);
}
else
{
eprintf ("<inf>\n");
}
#endif
/* Print also individual claims */
/* Note that if the output is set to empty, the claim output is redirected to stdout (for e.g. processing)
*/
cl_scan = sys->claimlist;
anyclaims = 0;
while (cl_scan != NULL)
{
anyclaims = 1;
eprintf ("claim\t");
/* claim label is tuple */
if (realTermTuple (cl_scan->label))
{
/* modern version: claim label is tuple (protocname, label) */
/* first print protocol.role */
termPrint (TermOp1 (cl_scan->label));
eprintf ("\t");
termPrint (cl_scan->rolename);
eprintf ("\t");
/* second print event_label */
termPrint (cl_scan->type);
eprintf ("_");
termPrint (TermOp2 (cl_scan->label));
eprintf ("\t");
}
else
{
/* old-fashioned output */
termPrint (cl_scan->type);
eprintf ("\t");
termPrint (cl_scan->rolename);
eprintf (" (");
termPrint (cl_scan->label);
eprintf (")\t");
}
/* print counts etc. */
eprintf ("found:\t");
statesFormat (cl_scan->count);
if (cl_scan->count > 0)
{
if (cl_scan->failed > 0)
{
eprintf ("\t");
eprintf ("failed:\t");
statesFormat (cl_scan->failed);
}
else
{
eprintf ("\tcorrect: ");
if (cl_scan->complete)
{
eprintf ("complete_proof");
}
else
{
eprintf ("bounded_proof");
if (cl_scan->timebound)
eprintf ("\ttime=%i", time_limit_seconds);
}
}
}
else
{
eprintf ("\tcorrect: does_not_occur");
}
eprintf ("\n");
cl_scan = cl_scan->next;
}
if (!anyclaims)
{
warning ("No claims in system.");
}
/* reset globalError */
if (switches.output != SUMMARY)
{
globalError--;
}
}
//! Analyse the model by incremental runs.
/*
* This procedure considers mainly incremental searches, and settings
* parameters for that. The real work is handled by modelCheck.
*/
void
MC_incRuns (const System sys)
{
/*
* incremental runs check
*
* note: we assume that at least one run needs to be checked.
*/
int maxruns = sys->maxruns;
int runs = 1;
int flag = 1;
int res;
do
{
systemReset (sys);
sys->maxruns = runs;
systemRuns (sys);
fprintf (stderr, "%i of %i runs in incremental runs search.\n",
runs, maxruns);
res = modelCheck (sys);
fprintf (stderr, "\n");
if (res)
{
/* Apparently a violation occurred. If we are searching
* the whole space, then we just continue. However, if
* we're looking to prune, ``the buck stops here''. */
if (switches.prune != 0)
{
flag = 0;
}
}
runs++;
}
while (flag && runs <= maxruns);
sys->maxruns = maxruns;
}
//! Analyse the model by incremental trace lengths.
/*
* This procedure considers mainly incremental searches, and settings
* parameters for that. The real work is handled by modelCheck.
*/
void
MC_incTraces (const System sys)
{
/*
* incremental traces check
*
* note: we assume that at least one run needs to be checked.
*/
int maxtracelen;
int tracelen;
int tracestep;
int flag;
int res;
tracestep = 3; /* what is a sensible stepping size? */
flag = 1;
maxtracelen = getMaxTraceLength (sys);
tracelen = maxtracelen - tracestep;
while (tracelen > 6) /* what is a reasonable minimum? */
tracelen -= tracestep;
flag = 1;
do
{
systemReset (sys);
sys->maxtracelength = tracelen;
systemRuns (sys);
fprintf (stderr,
"%i of %i trace length in incremental trace length search.\n",
tracelen, maxtracelen);
res = modelCheck (sys);
fprintf (stderr, "\n");
if (res)
{
/* Apparently a violation occurred. If we are searching
* the whole space, then we just continue. However, if
* we're looking to prune, ``the buck stops here''. */
if (switches.prune != 0)
{
flag = 0;
}
}
tracelen += tracestep;
}
while (flag && tracelen <= maxtracelen);
}
//! Analyse the model with a fixed scenario.
/**
* Traditional handywork.
*/
void
MC_single (const System sys)
{
/*
* simple one-time check
*/
systemReset (sys); // reset any globals
systemRuns (sys); // init runs data
modelCheck (sys);
}
//! Model check the system, given all parameters.
/*
* Precondition: the system was reset with the corresponding parameters.
* Reports time and states traversed.
* Note that the return values doubles as the number of failed claims.
*@return True iff any claim failed, and thus an attack was found.
*/
int
modelCheck (const System sys)
{
if (switches.output == STATESPACE)
{
graphInit (sys);
}
/* modelcheck the system */
switch (switches.engine)
{
case POR_ENGINE:
traverse (sys);
break;
case ARACHNE_ENGINE:
arachne ();
break;
default:
error ("Unknown engine type %i.", switches.engine);
}
/* clean up any states display */
if (switches.reportStates > 0)
{
// States: 1.000e+06
fprintf (stderr, " \r");
}
timersPrint (sys);
if (switches.output == STATESPACE)
{
graphDone (sys);
}
if (switches.scenario > 0)
{
/* Traversing a scenario. Maybe we ran out. */
if (switches.scenario > sys->countScenario)
{
/* Signal as error */
exit (1);
}
}
return (sys->failed != STATES0);
}