scyther/src/modelchecker.c

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2004-04-23 11:58:43 +01:00
#include <stdlib.h>
#include <stdio.h>
#include <limits.h>
#include "substitutions.h"
#include "knowledge.h"
#include "runs.h"
#include "debug.h"
#include "modelchecker.h"
#include "report.h"
#include "memory.h"
#include "match_basic.h"
#include "match_clp.h"
#include "output.h"
#include "tracebuf.h"
#include "attackminimize.h"
#include "claims.h"
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/*
A model checker. Really.
*/
extern Term CLAIM_Secret;
extern Term CLAIM_Nisynch;
/*
Some forward declarations.
*/
int traverseSimple (const System oldsys);
int traverseNonReads (const System oldsys);
int traversePOR (const System oldsys);
int traversePOR2 (const System oldsys);
int traversePOR2b (const System oldsys);
int traversePOR3 (const System oldsys);
int traversePOR4 (const System oldsys);
int traversePOR5 (const System oldsys);
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int propertyCheck (const System sys);
int executeTry (const System sys, int run);
int claimSecrecy (const System sys, const Term t);
int violateClaim (const System sys, int length, int claimev, Termlist reqt);
Termlist secrecyUnfolding (Term t, const Knowledge know);
/*
Main code.
*/
void
statePrint (const System sys)
{
int i, s;
Roledef rd;
indent ();
printf ("state %i: ", sys->step);
for (i = 0; i < sys->maxruns; i++)
{
s = 0;
rd = runPointerGet (sys, i);
while (rd != NULL)
{
rd = rd->next;
s++;
}
printf ("%i ", s);
}
printf (" - phase %i, done %i", sys->PORphase, sys->PORdone);
printf ("\n");
}
int
traverse (const System sys)
{
/* branch for traversal methods */
switch (sys->traverse)
{
case 1:
return traverseSimple (sys);
case 2:
return traverseNonReads (sys);
case 3:
case 4:
return traversePOR (sys);
case 5:
return traversePOR2 (sys);
case 6:
return traversePOR3 (sys);
case 7:
return traversePOR2b (sys);
case 8:
return traversePOR4 (sys);
case 9:
return traversePOR5 (sys);
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default:
debug (2, "This is NOT an existing traversal method !");
exit (1);
}
}
//! Progress counters to next step.
/**
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* Does not really execute anything, it's just bookkeeping, progressing
* counters and such.
*
*@returns If it returns TRUE, explore. If false, don't traverse.
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*/
int
executeStep (const System sys, const int run)
{
Roledef runPoint;
runPoint = runPointerGet (sys, run);
#ifdef DEBUG
if (DEBUGL (3))
{
indent ();
printf ("exec: ");
roledefPrint (runPoint);
printf ("#%i\n", run);
}
#endif
runPointerSet (sys, run, runPoint->next);
/* store knowledge for this step */
(sys->step)++;
sys->traceKnow[sys->step] = sys->know;
/* check for properties */
propertyCheck (sys);
/* set indent for printing */
indentSet (sys->step);
/* hmmm, but what should it return if not exploring? */
if (!sys->explore)
return 0;
/* we want to explore it, but are we allowed by pruning? */
if (sys->step >= sys->maxtracelength)
{
/* cut off traces that are too long */
#ifdef DEBUG
if (DEBUGL (4))
{
indent ();
printf ("trace cut off.\n");
if (DEBUGL (5))
{
(sys->step)--;
tracePrint (sys);
(sys->step)++;
}
}
#endif
return 0;
}
/* we will explore this state, so count it. */
/* ulong was _not_ enough... */
if (++sys->statesLow == ULONG_MAX)
{
sys->statesLow = 0;
sys->statesHigh++;
/* No test for overflow statesHigh. If stuff gets that fast, then
* I surely hope the max of ulong is set higher in the language def */
}
/* show progression */
if (sys->switchS > 0)
{
if (sys->statesLow % (long int) sys->switchS == 0)
{
fprintf (stderr, "States ");
if (sys->statesHigh == 0 && sys->statesLow < 1000000)
fprintf (stderr, "%u", sys->statesLow);
else
fprintf (stderr, "%8.3e", (double) sys->statesLow + (sys->statesHigh * ULONG_MAX));
fprintf (stderr, " \r");
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}
}
/* store new node numbder */
sys->traceNode[sys->step] = sys->statesLow;
/* the construction below always assumes MAX_GRAPH_STATES to be smaller than the unsigned long it, which seems realistic. */
if (sys->switchStatespace && sys->statesHigh == 0 && sys->statesLow < MAX_GRAPH_STATES)
{
/* display graph */
graphNode (sys);
}
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return 1;
}
//! Explores the system state given by the next step of a run.
/**
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* grandiose naming scheme (c) sjors dubya.
*/
int
explorify (const System sys, const int run)
{
Roledef rd;
int flag;
rd = runPointerGet (sys, run);
if (rd == NULL)
{
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fprintf (stderr, "ERROR: trying to progress completed run!\n");
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exit (1);
}
flag = 0;
/*
* Special checks after (implicit) choose events; always first in run reads.
*/
if (rd == sys->runs[run].start && rd->type == READ)
{
int rid;
if (inTermlist (sys->untrusted, agentOfRun (sys, run)))
{
/* this run is executed by an untrusted agent, do not explore */
return 0;
}
/* executed by trusted agent */
/* Special check 1: if agents have been instantiated in such a way that no more claims need to be evaluated, then we can skip
* further traversal.
*/
if (sys->secrets == NULL)
{ /* there are no remaining secrecy claims to be checked */
Roledef rdscan;
int validclaim;
rid = 0;
validclaim = 0;
/* check for each run */
while (rid < sys->maxruns)
{
/* are claims in this run evaluated anyway? */
if (!untrustedAgent (sys, sys->runs[rid].agents))
{ /* possibly claims to be checked in this run */
rdscan = runPointerGet(sys, rid);
while (rdscan != NULL)
{
if (rdscan->type == CLAIM)
{
/* force abort of loop */
validclaim = 1;
rdscan = NULL;
rid = sys->maxruns;
}
else
{
rdscan = rdscan->next;
}
}
}
rid++;
}
if (validclaim == 0)
{ /* no valid claims, abort */
return 0;
}
}
/* Special check 2: if all agents in each run send only encrypted stuff, and all agents are trusted,
* there is no way for the intruder to learn anything else than encrypted terms, so secrecy claims will not
* be violated anymore if they contain no terms that are encrypted with such keys */
//!@todo For now, there is no check that the runs only send publicly encrypted stuff! Just an assumption to be made true using static analysis.
/*
rid = 0;
while (rid < sys->maxruns)
{
if (!untrustedAgent (sys, sys->runs[rid].agents))
{
}
rid++;
}
*/
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}
/* Apparently, all is well, and we can explore further */
if (executeStep (sys, run))
{
/* traverse the system after the step */
flag = traverse (sys);
runPointerSet (sys, run, rd);
sys->step--;
indentSet (sys->step);
return flag;
}
return 0;
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}
int
traverseSimple (const System sys)
{
/* simple nondeterministic traversal */
int run;
int flag = 0;
for (run = 0; run < (sys->maxruns); run++)
{
if (runPointerGet (sys, run) != NULL)
{
flag = 1;
executeTry (sys, run);
}
}
if (!flag)
{
/* trace was not succesful */
}
return flag;
}
/*
* nonReads
*
* Do a certain type of action first, i.e. that which satisfies nonRead(System,
* Roledef). Use the inverse of this predicate to detect the other type of
* event.
*/
#define predRead(sys,rd) ( rd->type == READ && !rd->internal )
#define isRead(sys,rd) ( rd != NULL && predRead(sys,rd) )
#define nonRead(sys,rd) ( rd != NULL && !predRead(sys,rd) )
int
nonReads (const System sys)
{
/* all sends first, then simple nondeterministic traversal */
int run;
Roledef rd;
/* check for existence of executable sends */
for (run = 0; run < (sys->maxruns); run++)
{
rd = runPointerGet (sys, run);
if (nonRead (sys, rd))
{
executeTry (sys, run);
return 1;
}
}
return 0;
}
int
traverseNonReads (const System sys)
{
if (nonReads (sys))
return 1;
else
return traverseSimple (sys);
}
int
traversePOR (const System sys)
{
int flag = 0;
int phase = sys->PORphase;
int done = sys->PORdone;
Roledef rd;
if (phase == -1)
{
/* if we did nothing in the previous scan, this does not
add anything new, and we exit. */
if (done == 0)
return 0;
if (nonReads (sys))
{
return 1;
}
else
{
sys->PORphase = 0;
sys->PORdone = 0;
flag = traversePOR (sys);
sys->PORphase = phase;
sys->PORdone = done;
return flag;
}
}
else
{
/* other phase: branch the reads */
if (phase == 0)
{
/* phase 0: init the relevant counters */
sys->PORdone = 0;
flag = 0;
}
(sys->PORphase)++;
if (sys->PORphase == sys->maxruns)
{
sys->PORphase = -1;
}
rd = runPointerGet (sys, phase);
if (isRead (sys, rd))
{
/* consider both possibilities */
/* empty branch test */
if (sys->PORphase != -1 || sys->PORdone == 1)
{
/* apparently we have already done something,
* so we can consider _not_ doing this read */
/* option 1: we do not execute the event */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf
("We are not executing a non-send event in phase %i\n",
phase);
}
#endif
switch (sys->clp)
{
case 0:
flag = block_basic (sys, phase);
break;
case 1:
flag = block_clp (sys, phase);
break;
default:
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fprintf (stderr, "Non existing clp switch.\n");
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exit (1);
}
}
/* option 2: we do execute the event */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf
("We are actually executing a non-send event in phase %i\n",
phase);
}
#endif
sys->PORdone = 1; // mark that we did (try) stuff
flag = executeTry (sys, phase);
}
else
{
/* empty branch test */
if (sys->PORphase != -1 || sys->PORdone == 1)
{
/* something else or null, proceed with scan */
flag = traverse (sys);
}
}
sys->PORdone = done;
sys->PORphase = phase;
return flag;
}
}
/*
* POR2b
*
* currently -t7
*
* New partial order reduction, which ought to be much more intuitive.
*/
int
traversePOR2b (const System sys)
{
Roledef runPoint;
int flag = 0;
int phase = sys->PORphase;
int done = sys->PORdone;
if (phase == -1)
{
/* if we did nothing in the previous scan, this does not
add anything new, and we exit. */
if (done == 0)
{
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf
("Read branch had no executed reads in phase %i, pruning tree.\n",
phase);
}
#endif
return 0;
}
/* nonReads first, as long as they exist */
if (nonReads (sys))
{
/* there was a nonread executed, branches itself */
return 1;
}
else
{
/* no more nonreads, go to next phase */
sys->PORphase = 0;
sys->PORdone = 0;
flag = traverse (sys);
sys->PORdone = done;
sys->PORphase = phase;
return flag;
}
}
else
{
/* other phase: branch the reads */
(sys->PORphase)++;
if (sys->PORphase == sys->maxruns)
{
sys->PORphase = -1;
}
runPoint = runPointerGet (sys, phase);
if (isRead (sys, runPoint))
{
/* A read, we were looking for one of those. Consider
* both possibilities */
/* option A. Try to execute the event */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf ("We are actually executing a read event in phase %i\n",
phase);
}
#endif
sys->PORdone++;
flag = executeTry (sys, phase);
sys->PORdone--;
/* option B. Not execute now */
if (!flag)
{
/* It did not work now, so we try it later */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf ("Postponing a failed read in phase %i\n", phase);
}
#endif
flag = traverse (sys);
}
else
{
/* It worked. Will the situation change later
* however? Surely only if there was a
* variable involved, we might try it later */
if (hasTermVariable (runPoint->message))
{
/* It has a variable, so we might try
* it later, but _only_ with different
* knowledge */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf
("Postponing a read for later ideas in phase %i\n",
phase);
}
#endif
if (!sys->clp)
{
/* non-clp */
flag = block_basic (sys, phase);
}
else
{
/* clp */
flag = block_clp (sys, phase);
}
}
else
{
/* no more hope */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf ("No more hope in phase %i.\n", phase);
}
#endif
}
}
}
else
{
/* it is not a read. this actually should mean the role is empty */
/* something else or null, proceed with scan */
flag = traverse (sys);
}
/* reset phase counter */
sys->PORphase = phase;
return flag;
}
}
int
traversePOR2 (const System sys)
{
Roledef runPoint;
int flag = 0;
int phase = sys->PORphase;
int done = sys->PORdone;
if (phase == -1)
{
/* if we did nothing in the previous scan, this does not
add anything new, and we exit. */
if (sys->PORdone == 0)
return 0;
if (nonReads (sys))
{
return 1;
}
else
{
sys->PORphase = 0;
sys->PORdone = 0;
flag = traversePOR2 (sys);
sys->PORphase = phase;
sys->PORdone = done;
return flag;
}
}
else
{
/* other phase: branch the reads */
if (phase == 0)
{
/* phase 0: init the relevant counters */
sys->PORdone = 0;
flag = 0;
}
(sys->PORphase)++;
if (sys->PORphase == sys->maxruns)
{
sys->PORphase = -1;
}
runPoint = runPointerGet (sys, phase);
if (isRead (sys, runPoint))
{
/* empty branch test */
if (sys->PORphase != -1 || sys->PORdone == 1)
{
/* option 1: we do not execute the event */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf
("We are not executing a non-send event in phase %i\n",
phase);
}
#endif
switch (sys->clp)
{
case 0:
/* the idea is, that if the
* read has no variables, and
* is enabled already, it makes
* no sense to delay it any
* longer. */
if (hasTermVariable (runPoint->message))
{
/* original case */
flag = block_basic (sys, phase);
}
else
{
/* check whether it was enabled already */
/* HACK this is a custom 'enabled' test. */
/* TODO rewrite this, we don't want such a test. */
if (!inKnowledge (sys->know, runPoint->message))
{
/* not enabled yet, so we might want to do so later */
flag = block_basic (sys, phase);
}
else
{
/* enabled, skipping */
}
}
break;
case 1:
flag = block_clp (sys, phase);
break;
default:
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fprintf (stderr, "Non existing clp switch.\n");
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exit (1);
}
}
/* option 2: we do execute the event */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf
("We are actually executing a non-send event in phase %i\n",
phase);
}
#endif
sys->PORdone = 1; // mark that we did (try) stuff
flag = executeTry (sys, phase);
}
else
{
/* empty branch test */
if (sys->PORphase != -1 || sys->PORdone == 1)
{
/* something else or null, proceed with scan */
flag = traverse (sys);
}
}
sys->PORdone = done;
sys->PORphase = phase;
return flag;
}
}
int
traversePOR3 (const System sys)
{
Roledef rd;
int flag;
int run;
if (nonReads (sys))
{
return 1;
}
for (run = 0; run < sys->maxruns; run++)
{
rd = runPointerGet (sys, run);
if (rd != NULL)
{
/* option 1: just execute it */
flag = executeTry (sys, run);
/* option 2: if it worked, and its a read... */
if (flag)
{
if (rd->type == READ &&
!(rd->internal) && hasTermVariable (rd->message))
{
/* option 2a: worked, but also execute
* it later if we thinks that's
* different actually only relevant for
* non internal reads */
/* TODO consider option for global
* 'sendsTodo' counter, because if
* there are zero left, this is not
* required. */
#ifdef DEBUG
if (DEBUGL (5))
{
indent ();
printf ("Blocking read for run #%i.\n", run);
}
#endif
block_basic (sys, run);
}
return 1;
}
}
}
return 0;
}
/*
* POR4
*
* This is the simplified version of the algorithm, to be compared with
* the -t7 version.
*
* Based on some new considerations.
*/
int
traversePOR4 (const System sys)
{
Roledef rd;
int flag = 0;
int run;
int i;
int offset;
/* Previously we did the sends first. This does not always improve things,
* depending on the protocol.
*/
// if (nonReads (sys)) return 1;
/* a choice for choose */
/* The 'choose' implemented here is the following:
*
* choose ev#rid
* where rid = min(r: ev#r in enabled(sys): (r-lastrun) mod maxruns)
* and where lastrun is the runid of the previous event
* in the trace, or 0 if there was none.
*/
if (sys->step == 0)
{
/* first step, start at 0 */
offset = 0;
}
else
{
/* there was a previous action, start scan from there */
offset = sys->traceRun[sys->step - 1] + sys->porparam;
}
/* Try all events (implicitly we only handle enabled ones) starting with our
* first choice. If one was chosen, flag is set, and the loop aborts. */
for (i = 0; i < sys->maxruns && !flag; i++)
{
run = (i + offset) % sys->maxruns;
rd = runPointerGet (sys, run);
if (rd != NULL)
{
switch (rd->type)
{
case CLAIM:
case SEND:
executeTry (sys, run);
flag = 1;
break;
case READ:
/* the sendsdone check only prevent
* some unneccessary inKnowledge tests,
* and branch tests, still improves
* about 15% */
if (sys->knowPhase > rd->knowPhase)
{
/* apparently there has been a new knowledge item since the
* previous check */
/* implicit check for enabledness */
flag = executeTry (sys, run);
/* if it was enabled (flag) we postpone it if it makes sense
* to do so (hasVariable, non internal) */
if (flag && hasTermVariable (rd->message) && !rd->internal)
{
int stackKnowPhase = rd->knowPhase;
rd->knowPhase = sys->knowPhase;
if (sys->clp)
{
block_clp (sys, run);
}
else
{
block_basic (sys, run);
}
rd->knowPhase = stackKnowPhase;
}
}
break;
default:
fprintf (stderr, "Encountered unknown event type %i.\n", rd->type);
exit (1);
}
}
}
return flag;
}
/*
* POR5
*
* POR4 but does chooses first.
*/
int
traversePOR5 (const System sys)
{
Roledef rd;
int flag = 0;
int run;
int i;
int offset;
/* Previously we did the sends first. This does not always improve things,
* depending on the protocol.
*/
// if (nonReads (sys)) return 1;
/* a choice for choose */
/* The 'choose' implemented here is the following:
*
* choose ev#rid
* where rid = min(r: ev#r in enabled(sys): (r-lastrun) mod maxruns)
* and where lastrun is the runid of the previous event
* in the trace, or 0 if there was none.
*/
if (sys->step == 0)
{
/* first step, start at 0 */
offset = 0;
}
else
{
/* there was a previous action, start scan from there */
offset = sys->traceRun[sys->step - 1] + sys->porparam;
}
/* First pick out any choose events */
for (i = 0; i < sys->maxruns && !flag; i++)
{
run = (i + offset) % sys->maxruns;
rd = runPointerGet (sys, run);
if (rd != NULL)
{
switch (rd->type)
{
case CLAIM:
case SEND:
break;
case READ:
if (rd->internal)
{
flag = executeTry (sys, run);
}
break;
default:
fprintf (stderr, "Encountered unknown event type %i.\n", rd->type);
exit (1);
}
}
}
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/* Try all events (implicitly we only handle enabled ones) starting with our
* first choice. If one was chosen, flag is set, and the loop aborts. */
for (i = 0; i < sys->maxruns && !flag; i++)
{
run = (i + offset) % sys->maxruns;
rd = runPointerGet (sys, run);
if (rd != NULL)
{
switch (rd->type)
{
case CLAIM:
case SEND:
executeTry (sys, run);
flag = 1;
break;
case READ:
/* the sendsdone check only prevent
* some unneccessary inKnowledge tests,
* and branch tests, still improves
* about 15% */
if (sys->knowPhase > rd->knowPhase)
{
/* apparently there has been a new knowledge item since the
* previous check */
/* implicit check for enabledness */
flag = executeTry (sys, run);
/* if it was enabled (flag) we postpone it if it makes sense
* to do so (hasVariable, non internal) */
if (flag && hasTermVariable (rd->message) && !rd->internal)
{
int stackKnowPhase = rd->knowPhase;
rd->knowPhase = sys->knowPhase;
if (sys->clp)
{
block_clp (sys, run);
}
else
{
block_basic (sys, run);
}
rd->knowPhase = stackKnowPhase;
}
}
break;
default:
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fprintf (stderr, "Encountered unknown event type %i.\n", rd->type);
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exit (1);
}
}
}
return flag;
}
int
propertyCheck (const System sys)
{
int flag = 1; // default: properties are true, no attack
/* for now, we only check secrecy */
if (sys->secrets != NULL)
{
Termlist scan;
scan = sys->secrets;
while (scan != NULL)
{
if (!claimSecrecy (sys, scan->term))
{
/* apparently, secrecy of this term was violated */
/* find the violated claim event */
Termlist tl = NULL;
int claimev = -1;
int i = 0;
while (claimev == -1 && i <= sys->step)
{
if (sys->traceEvent[i]->type == CLAIM &&
sys->traceEvent[i]->to == CLAIM_Secret)
{
Termlist tl = secrecyUnfolding(scan->term, sys->know);
if (tl != NULL)
{
/* This was indeed a violated claim */
claimev = i;
}
}
i++;
}
/* do we have it? */
if (claimev == -1)
{
/* weird, should not occur */
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fprintf(stderr, "Violation, but cannot locate claim.\n");
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printf("A secrecy claim was supposed to be violated on term ");
termPrint(scan->term);
printf(" but we couldn't find the corresponding claim.\n");
exit(1);
}
else
{
/* fine. so it's violated */
violateClaim(sys, sys->step, claimev, tl);
termlistDelete(tl);
flag = 0;
}
}
scan = scan->next;
}
}
return flag;
}
/* true iff the term is secret */
int
isTermSecret (const System sys, const Term t)
{
switch (sys->clp)
{
case 0:
/* test for simple inclusion */
if (inKnowledge (sys->know, t))
return 0;
if (isTermVariable (t))
{
/* it's a variable! */
/* TODO that does not necessarily mean we can choose it, does
* it? NO: the rule should be: there is at least one message
* in knowledge. We don't check it currently.*/
return 0;
}
return 1;
case 1:
/* CLP stuff */
return secret_clp (sys, t);
default:
return 0;
}
}
/* true iff the claim is valid */
int
claimSecrecy (const System sys, const Term t)
{
int csScan (Term t)
{
t = deVar (t);
if (isTermTuple (t))
return csScan (t->left.op1) && csScan (t->right.op2);
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else
return isTermSecret (sys, t);
}
if (csScan (t))
return 1;
else
{
/* Not reported anymore here, but only at the end */
// reportSecrecy (sys, t);
return 0;
}
}
/*
* Unfold the secrecy tuple and construct a list of terms that violate it.
*/
Termlist
secrecyUnfolding (Term t, const Knowledge know)
{
t = deVar (t);
if (isTermTuple (t))
return termlistConcat (secrecyUnfolding(t->left.op1,know),
secrecyUnfolding(t->right.op2,know)
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);
else
{
if (inKnowledge(know, t))
return termlistAdd(NULL, t);
else
return NULL;
}
}
/*
* for reporting we need a more detailed output of the claims.
* Output is a termlist pointer, or -1.
*
* in: claim roledef, knowledge for which it is violated
*
* -1 : claim was ignored
* NULL : claim is fulfilled (true)
* Termlist: claim was violated, termlist terms are know to the intruder.
*/
Termlist
claimViolationDetails (const System sys, const int run, const Roledef rd, const Knowledge know)
{
if (rd->type != CLAIM)
{
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fprintf(stderr, "Trying to determine details of something other than a claim!\n");
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exit(-1);
}
/* cases */
if (rd->to == CLAIM_Secret)
{
/* secrecy claim */
if (untrustedAgent (sys, sys->runs[run].agents))
{
/* claim was skipped */
return (Termlist) -1;
}
else
{
/* construct violating subterms list */
return secrecyUnfolding(rd->message, know);
}
}
return NULL;
}
//! A claim was violated.
/**
* This happens when we violate a claim.
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* Lots of administration.
*@returns True iff explorify is in order.
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*/
int
violateClaim (const System sys, int length, int claimev, Termlist reqt)
{
int flag;
/* default = no adaption of pruning, continue search */
flag = 1;
/* Count the violations */
sys->failed++;
/* mark the path in the state graph? */
if (sys->switchStatespace)
{
graphPath (sys, length);
}
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/* Copy the current trace to the buffer, if the new one is shorter than the previous one. */
if (sys->attack == NULL || length < sys->attack->reallength)
{
tracebufDone(sys->attack);
sys->attack = tracebufSet(sys, length, claimev);
attackMinimize (sys, sys->attack);
sys->shortestattack = sys->attack->reallength;
/* maybe there is some new pruning going on */
flag = 0;
switch (sys->prune)
{
case 0:
flag = 1;
break;
case 1:
break;
case 2:
sys->maxtracelength = sys->shortestattack - 1;
break;
}
}
return flag;
}
int
executeTry (const System sys, int run)
{
Roledef runPoint;
int flag = 0;
runPoint = runPointerGet (sys, run);
sys->traceEvent[sys->step] = runPoint; // store for later usage, problem: variables are substituted later...
sys->traceRun[sys->step] = run; // same
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if (runPoint == NULL)
{
#ifdef DEBUG
/* warning, ought not to occur */
debug (2, "Trying to activate completed run");
#endif
}
else
{
#ifdef DEBUG
if (DEBUGL (4))
{
indent ();
printf ("try: ");
roledefPrint (runPoint);
printf ("#%i\n", run);
}
#endif
if (runPoint->type == READ)
{
if (sys->clp)
return matchRead_clp (sys, run, explorify);
else
return matchRead_basic (sys, run, explorify);
}
if (runPoint->type == SEND)
{
if (sys->clp)
flag = send_clp (sys, run);
else
flag = send_basic (sys, run);
return flag;
}
/*
* Execute claim event
*/
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if (runPoint->type == CLAIM)
{
/* first we might dynamically determine whether the claim is valid */
if (untrustedAgent (sys, sys->runs[run].agents))
{
/* for untrusted agents we check no claim violations at all
* so: we know it's okay. */
/* TODO for CLP this doesn't work and call for branching, if the
* agent is a variable */
#ifdef DEBUG
if (DEBUGL (3))
{
indent ();
printf ("Skipped claim in untrusted run with agents ");
termlistPrint (sys->runs[run].agents);
printf ("\n");
}
#endif
explorify (sys, run);
return 1;
}
/* determine type of claim, and parameters */
#ifdef DEBUG
if (DEBUGL (2))
{
indent ();
printf ("claim: ");
roledefPrint (runPoint);
printf ("#%i\n", run);
}
#endif
/*
* update claim counters
*/
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sys->claims++;
/*
* distinguish claim types
*/
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if (runPoint->to == CLAIM_Secret)
{
/*
* SECRECY
*/
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/* TODO claims now have their own type, test for that */
/* TODO for now it is secrecy of the message */
Termlist oldsecrets = sys->secrets;
/* TODO this can be more efficient, by filtering out double occurrences */
sys->secrets =
termlistAdd (termlistShallow (oldsecrets), runPoint->message);
flag = claimSecrecy (sys, runPoint->message);
runPoint->claiminfo->count++;
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/* now check whether the claim failed for further actions */
if (!flag)
{
/* violation */
Termlist tl;
runPoint->claiminfo->failed++;
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tl = claimViolationDetails(sys,run,runPoint,sys->know);
if (violateClaim (sys,sys->step+1, sys->step, tl ))
flag = explorify (sys, run);
termlistDelete(tl);
}
else
{
/* no violation */
flag = explorify (sys, run);
}
/* reset secrets list */
termlistDelete (sys->secrets);
sys->secrets = oldsecrets;
}
if (runPoint->to == CLAIM_Nisynch)
{
/*
* NISYNCH
*/
//!@todo TODO nisynch implementation
flag = check_claim_nisynch (sys, sys->step);
if (!flag)
{
/* violation */
if (violateClaim (sys,sys->step+1, sys->step, NULL ))
flag = explorify (sys, run);
}
else
{
/* no violation */
flag = explorify (sys, run);
}
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}
}
/* a claim always succeeds */
flag = 1;
}
return flag;
}