int main(int argc, char **argv)
{
bool bAllQueriesDump = true;
if (argc < 2)
PrintUsage();
else
if (argc == 2)
{
if ( !strcmp (argv[0], "-h")
|| !strcmp (argv[0], "-help")
|| !strcmp (argv[0], "/h")
|| !strcmp (argv[0], "/help")
)
PrintUsage();
}
else
{
if (!strcmp(argv [2], "--no-query-dump"))
{
bAllQueriesDump = false;
fprintf(stderr, "no dump of all queries \n");
}
else
PrintUsage();
};
string LockFileName;
if (!GetLockName(LockFileName))
{
return 1;
};
string Action = argv[1];
if ( (Action != "start")
&& (Action != "start_cli")
&& (Action != "stop")
)
PrintUsage();
if (Action == "stop")
{
if (access(LockFileName.c_str(), 04) != 0)
{
printf("Seman Daemon was not started!\n");
return 1;
};
FILE* fp = fopen (LockFileName.c_str(), "r");
if (!fp)
{
printf("Cannot open file %s!\n", LockFileName.c_str());
return 1;
};
pid_t pid;
fscanf(fp, "%i", &pid);
fclose (fp);
if (kill (pid, SIGTERM) == 0)
{
printf ("Seman Daemon was stopped\n");
remove (LockFileName.c_str());
}
else
printf ("Cannot send a SIGTERM to the process\n");
return 1;
};
seman_daemon_log ("Entering Seman Daemon");
if (Action == "start_cli")
{
fprintf (stderr, "removing %s\n",LockFileName.c_str());
remove(LockFileName.c_str());
};
if (access(LockFileName.c_str(), 04) == 0)
{
printf("Daemon already started!\n");
return 1;
};
if (Action == "start")
{
// working as a daemon
int fd; int i;
struct rlimit flim;
if (getppid()!=1)
{
signal(SIGTTOU,SIG_IGN);
signal(SIGTTIN,SIG_IGN);
signal(SIGTSTP,SIG_IGN);
if(fork()!=0)
{
exit(0);
};
setsid();
}
getrlimit(RLIMIT_NOFILE, &flim);
for(fd=0;fd<flim.rlim_max;fd++)
close(fd);
chdir("/");
openlog("Seman Server", LOG_PID| LOG_CONS, LOG_DAEMON );
}
try{
if (Action == "start_cli")
{
fprintf (stderr, "Open a lock file %s\n", LockFileName.c_str());
}
syslog(LOG_ALERT, "Open a lock file %s\n", LockFileName.c_str());
FILE* fp = fopen (LockFileName.c_str(), "w");
if (!fp)
{
syslog(LOG_ALERT, "Cannot open file %s!\n", LockFileName.c_str());
return 1;
};
fprintf(fp, "%i", getpid());
fclose (fp);
if (Action == "start_cli")
{
fprintf (stderr, "SocketInitialize...\n");
}
seman_daemon_log ("SocketInitialize...");
SocketInitialize(false);
if (Action == "start_cli")
{
fprintf (stderr, "LoadTranslator...\n");
}
if (!LoadTranslator ())
{
seman_daemon_log ("Cannot load Seman");
if (Action == "start_cli")
{
fprintf (stderr, "Cannot load Seman\n");
}
SocketDeinitialize();
return 1;
};
if (signal (SIGTERM, termination_handler) == SIG_IGN)
signal (SIGTERM, SIG_IGN);
if (Action == "start_cli")
fprintf (stderr, "\nWaiting for accept ... \n");
while (1)
{
sleep(40);
}
}
catch(...)
{
if (Action == "start_cli")
{
fprintf (stderr, "An exception occurred!\n");
}
syslog(LOG_ALERT, "An exception occurred! ");
UnloadData();
SocketDeinitialize();
return -1;
};
SocketDeinitialize();
return 1;
}
PromiseResult VerifyMethod(EvalContext *ctx, const Rval call, Attributes a, const Promise *pp)
{
const Rlist *args = NULL;
Buffer *method_name = BufferNew();
switch (call.type)
{
case RVAL_TYPE_FNCALL:
{
const FnCall *fp = RvalFnCallValue(call);
ExpandScalar(ctx, PromiseGetBundle(pp)->ns, PromiseGetBundle(pp)->name, fp->name, method_name);
args = fp->args;
int arg_index = 0;
while (args)
{
++arg_index;
if (strcmp(args->val.item, CF_NULL_VALUE) == 0)
{
Log(LOG_LEVEL_DEBUG, "Skipping invokation of method '%s' due to null-values in argument '%d'",
fp->name, arg_index);
BufferDestroy(method_name);
return PROMISE_RESULT_SKIPPED;
}
args = args->next;
}
args = fp->args;
EvalContextSetBundleArgs(ctx, args);
}
break;
case RVAL_TYPE_SCALAR:
{
ExpandScalar(ctx, PromiseGetBundle(pp)->ns, PromiseGetBundle(pp)->name,
RvalScalarValue(call), method_name);
args = NULL;
}
break;
default:
BufferDestroy(method_name);
return PROMISE_RESULT_NOOP;
}
char lockname[CF_BUFSIZE];
GetLockName(lockname, "method", pp->promiser, args);
CfLock thislock = AcquireLock(ctx, lockname, VUQNAME, CFSTARTTIME, a.transaction, pp, false);
if (thislock.lock == NULL)
{
BufferDestroy(method_name);
return PROMISE_RESULT_SKIPPED;
}
PromiseBanner(ctx, pp);
const Bundle *bp = EvalContextResolveBundleExpression(ctx, PromiseGetPolicy(pp), BufferData(method_name), "agent");
if (!bp)
{
bp = EvalContextResolveBundleExpression(ctx, PromiseGetPolicy(pp), BufferData(method_name), "common");
}
PromiseResult result = PROMISE_RESULT_NOOP;
if (bp)
{
if (a.transaction.action == cfa_warn) // don't skip for dry-runs (ie ignore DONTDO)
{
result = PROMISE_RESULT_WARN;
cfPS(ctx, LOG_LEVEL_WARNING, result, pp, a, "Bundle '%s' should be invoked, but only a warning was promised!", BufferData(method_name));
}
else
{
BundleBanner(bp, args);
EvalContextStackPushBundleFrame(ctx, bp, args, a.inherit);
/* Clear all array-variables that are already set in the sub-bundle.
Otherwise, array-data accumulates between multiple bundle evaluations.
Note: for bundles invoked multiple times via bundlesequence, array
data *does* accumulate. */
VariableTableIterator *iter = EvalContextVariableTableIteratorNew(ctx, bp->ns, bp->name, NULL);
Variable *var;
while ((var = VariableTableIteratorNext(iter)))
{
if (!var->ref->num_indices)
{
continue;
}
EvalContextVariableRemove(ctx, var->ref);
}
VariableTableIteratorDestroy(iter);
BundleResolve(ctx, bp);
result = ScheduleAgentOperations(ctx, bp);
GetReturnValue(ctx, bp, pp);
EvalContextStackPopFrame(ctx);
switch (result)
{
case PROMISE_RESULT_SKIPPED:
// if a bundle returns 'skipped', meaning that all promises were locked in the bundle,
// we explicitly consider the method 'kept'
result = PROMISE_RESULT_NOOP;
// intentional fallthru
case PROMISE_RESULT_NOOP:
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_NOOP, pp, a, "Method '%s' verified", bp->name);
break;
case PROMISE_RESULT_WARN:
cfPS(ctx, LOG_LEVEL_WARNING, PROMISE_RESULT_WARN, pp, a, "Method '%s' invoked repairs, but only warnings promised", bp->name);
break;
case PROMISE_RESULT_CHANGE:
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_CHANGE, pp, a, "Method '%s' invoked repairs", bp->name);
break;
case PROMISE_RESULT_FAIL:
case PROMISE_RESULT_DENIED:
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_FAIL, pp, a, "Method '%s' failed in some repairs", bp->name);
break;
default: // PROMISE_RESULT_INTERRUPTED, TIMEOUT
cfPS(ctx, LOG_LEVEL_INFO, PROMISE_RESULT_FAIL, pp, a, "Method '%s' aborted in some repairs", bp->name);
break;
}
}
for (const Rlist *rp = bp->args; rp; rp = rp->next)
{
const char *lval = RlistScalarValue(rp);
VarRef *ref = VarRefParseFromBundle(lval, bp);
EvalContextVariableRemove(ctx, ref);
VarRefDestroy(ref);
}
}
else
{
if (IsCf3VarString(BufferData(method_name)))
{
Log(LOG_LEVEL_ERR,
"A variable seems to have been used for the name of the method. In this case, the promiser also needs to contain the unique name of the method");
}
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_FAIL, pp, a,
"A method attempted to use a bundle '%s' that was apparently not defined",
BufferData(method_name));
result = PromiseResultUpdate(result, PROMISE_RESULT_FAIL);
}
YieldCurrentLock(thislock);
BufferDestroy(method_name);
EndBundleBanner(bp);
return result;
}
int VerifyMethod(EvalContext *ctx, char *attrname, Attributes a, Promise *pp)
{
Bundle *bp;
void *vp;
FnCall *fp;
char method_name[CF_EXPANDSIZE], qualified_method[CF_BUFSIZE], *method_deref;
Rlist *params = NULL;
int retval = false;
CfLock thislock;
char lockname[CF_BUFSIZE];
if (a.havebundle)
{
if ((vp = ConstraintGetRvalValue(ctx, attrname, pp, RVAL_TYPE_FNCALL)))
{
fp = (FnCall *) vp;
ExpandScalar(ctx, PromiseGetBundle(pp)->name, fp->name, method_name);
params = fp->args;
}
else if ((vp = ConstraintGetRvalValue(ctx, attrname, pp, RVAL_TYPE_SCALAR)))
{
ExpandScalar(ctx, PromiseGetBundle(pp)->name, (char *) vp, method_name);
params = NULL;
}
else
{
return false;
}
}
GetLockName(lockname, "method", pp->promiser, params);
thislock = AcquireLock(ctx, lockname, VUQNAME, CFSTARTTIME, a.transaction, pp, false);
if (thislock.lock == NULL)
{
return false;
}
PromiseBanner(pp);
if (strncmp(method_name,"default:",strlen("default:")) == 0) // CF_NS == ':'
{
method_deref = strchr(method_name, CF_NS) + 1;
}
else if ((strchr(method_name, CF_NS) == NULL) && (strcmp(PromiseGetNamespace(pp), "default") != 0))
{
snprintf(qualified_method, CF_BUFSIZE, "%s%c%s", PromiseGetNamespace(pp), CF_NS, method_name);
method_deref = qualified_method;
}
else
{
method_deref = method_name;
}
bp = PolicyGetBundle(PolicyFromPromise(pp), NULL, "agent", method_deref);
if (!bp)
{
bp = PolicyGetBundle(PolicyFromPromise(pp), NULL, "common", method_deref);
}
if (bp)
{
BannerSubBundle(bp, params);
EvalContextStackPushBundleFrame(ctx, bp, a.inherit);
ScopeClear(bp->name);
BundleHashVariables(ctx, bp);
ScopeAugment(ctx, bp, pp, params);
retval = ScheduleAgentOperations(ctx, bp);
GetReturnValue(ctx, bp->name, pp);
EvalContextStackPopFrame(ctx);
switch (retval)
{
case PROMISE_RESULT_FAIL:
cfPS(ctx, LOG_LEVEL_INFO, PROMISE_RESULT_FAIL, pp, a, "Method failed in some repairs or aborted");
break;
case PROMISE_RESULT_CHANGE:
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_CHANGE, pp, a, "Method invoked repairs");
break;
default:
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_NOOP, pp, a, "Method verified");
break;
}
for (const Rlist *rp = bp->args; rp; rp = rp->next)
{
const char *lval = rp->item;
ScopeDeleteScalar((VarRef) { NULL, bp->name, lval });
}
}
else
{
if (IsCf3VarString(method_name))
{
Log(LOG_LEVEL_ERR,
"A variable seems to have been used for the name of the method. In this case, the promiser also needs to contain the unique name of the method");
}
if (bp && (bp->name))
{
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_FAIL, pp, a, "Method '%s' was used but was not defined", bp->name);
}
else
{
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_FAIL, pp, a,
"A method attempted to use a bundle '%s' that was apparently not defined", method_name);
}
}
YieldCurrentLock(thislock);
return retval;
}
PromiseResult VerifyMethod(EvalContext *ctx, const Rval call, Attributes a, const Promise *pp)
{
assert(a.havebundle);
const Rlist *args = NULL;
Buffer *method_name = BufferNew();
switch (call.type)
{
case RVAL_TYPE_FNCALL:
{
const FnCall *fp = RvalFnCallValue(call);
ExpandScalar(ctx, PromiseGetBundle(pp)->ns, PromiseGetBundle(pp)->name, fp->name, method_name);
args = fp->args;
}
break;
case RVAL_TYPE_SCALAR:
{
ExpandScalar(ctx, PromiseGetBundle(pp)->ns, PromiseGetBundle(pp)->name,
RvalScalarValue(call), method_name);
args = NULL;
}
break;
default:
BufferDestroy(method_name);
return PROMISE_RESULT_NOOP;
}
char lockname[CF_BUFSIZE];
GetLockName(lockname, "method", pp->promiser, args);
CfLock thislock = AcquireLock(ctx, lockname, VUQNAME, CFSTARTTIME, a.transaction, pp, false);
if (thislock.lock == NULL)
{
BufferDestroy(method_name);
return PROMISE_RESULT_SKIPPED;
}
PromiseBanner(pp);
const Bundle *bp = EvalContextResolveBundleExpression(ctx, PromiseGetPolicy(pp), BufferData(method_name), "agent");
if (!bp)
{
bp = EvalContextResolveBundleExpression(ctx, PromiseGetPolicy(pp), BufferData(method_name), "common");
}
PromiseResult result = PROMISE_RESULT_NOOP;
if (bp)
{
if (a.transaction.action == cfa_warn) // don't skip for dry-runs (ie ignore DONTDO)
{
result = PROMISE_RESULT_WARN;
cfPS(ctx, LOG_LEVEL_ERR, result, pp, a, "Bundle '%s' should be invoked, but only a warning was promised!", BufferData(method_name));
}
else
{
BannerSubBundle(bp, args);
EvalContextStackPushBundleFrame(ctx, bp, args, a.inherit);
BundleResolve(ctx, bp);
result = ScheduleAgentOperations(ctx, bp);
GetReturnValue(ctx, bp, pp);
EvalContextStackPopFrame(ctx);
switch (result)
{
case PROMISE_RESULT_SKIPPED:
// if a bundle returns 'skipped', meaning that all promises were locked in the bundle,
// we explicitly consider the method 'kept'
result = PROMISE_RESULT_NOOP;
// intentional fallthru
case PROMISE_RESULT_NOOP:
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_NOOP, pp, a, "Method '%s' verified", bp->name);
break;
case PROMISE_RESULT_WARN:
cfPS(ctx, LOG_LEVEL_WARNING, PROMISE_RESULT_WARN, pp, a, "Method '%s' invoked repairs, but only warnings promised", bp->name);
break;
case PROMISE_RESULT_CHANGE:
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_CHANGE, pp, a, "Method '%s' invoked repairs", bp->name);
break;
case PROMISE_RESULT_FAIL:
case PROMISE_RESULT_DENIED:
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_FAIL, pp, a, "Method '%s' failed in some repairs", bp->name);
break;
default: // PROMISE_RESULT_INTERRUPTED, TIMEOUT
cfPS(ctx, LOG_LEVEL_INFO, PROMISE_RESULT_FAIL, pp, a, "Method '%s' aborted in some repairs", bp->name);
break;
}
}
for (const Rlist *rp = bp->args; rp; rp = rp->next)
{
const char *lval = RlistScalarValue(rp);
VarRef *ref = VarRefParseFromBundle(lval, bp);
EvalContextVariableRemove(ctx, ref);
VarRefDestroy(ref);
}
}
else
{
if (IsCf3VarString(BufferData(method_name)))
{
Log(LOG_LEVEL_ERR,
"A variable seems to have been used for the name of the method. In this case, the promiser also needs to contain the unique name of the method");
}
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_FAIL, pp, a,
"A method attempted to use a bundle '%s' that was apparently not defined",
BufferData(method_name));
result = PromiseResultUpdate(result, PROMISE_RESULT_FAIL);
}
YieldCurrentLock(thislock);
BufferDestroy(method_name);
return result;
}
int VerifyMethod(char *attrname, Attributes a, Promise *pp)
{
Bundle *bp;
void *vp;
FnCall *fp;
char method_name[CF_EXPANDSIZE];
Rlist *params = NULL;
int retval = false;
CfLock thislock;
char lockname[CF_BUFSIZE];
if (a.havebundle)
{
if ((vp = GetConstraintValue(attrname, pp, CF_FNCALL)))
{
fp = (FnCall *) vp;
ExpandScalar(fp->name, method_name);
params = fp->args;
}
else if ((vp = GetConstraintValue(attrname, pp, CF_SCALAR)))
{
ExpandScalar((char *) vp, method_name);
params = NULL;
}
else
{
return false;
}
}
GetLockName(lockname, "method", pp->promiser, params);
thislock = AcquireLock(lockname, VUQNAME, CFSTARTTIME, a, pp, false);
if (thislock.lock == NULL)
{
return false;
}
PromiseBanner(pp);
if ((bp = GetBundle(method_name, "agent")))
{
char *bp_stack = THIS_BUNDLE;
BannerSubBundle(bp, params);
DeleteScope(bp->name);
NewScope(bp->name);
HashVariables(bp->name);
AugmentScope(bp->name, bp->args, params);
THIS_BUNDLE = bp->name;
PushPrivateClassContext();
retval = ScheduleAgentOperations(bp);
PopPrivateClassContext();
THIS_BUNDLE = bp_stack;
if (retval)
{
cfPS(cf_verbose, CF_NOP, "", pp, a, " -> Method invoked successfully\n");
}
else
{
cfPS(cf_inform, CF_FAIL, "", pp, a, " !! Method could not be invoked successfully\n");
}
DeleteFromScope(bp->name, bp->args);
}
else
{
if (IsCf3VarString(method_name))
{
CfOut(cf_error, "",
" !! A variable seems to have been used for the name of the method. In this case, the promiser also needs to contain the uique name of the method");
}
if (bp && bp->name)
{
cfPS(cf_error, CF_FAIL, "", pp, a, " !! Method \"%s\" was used but was not defined!\n", bp->name);
}
else
{
cfPS(cf_error, CF_FAIL, "", pp, a,
" !! A method attempted to use a bundle \"%s\" that was apparently not defined!\n", method_name);
}
}
YieldCurrentLock(thislock);
return retval;
}
PromiseResult VerifyMethod(EvalContext *ctx, char *attrname, Attributes a, const Promise *pp)
{
Bundle *bp;
void *vp;
FnCall *fp;
char method_name[CF_EXPANDSIZE];
Rlist *args = NULL;
CfLock thislock;
char lockname[CF_BUFSIZE];
if (a.havebundle)
{
if ((vp = PromiseGetConstraintAsRval(pp, attrname, RVAL_TYPE_FNCALL)))
{
fp = (FnCall *) vp;
ExpandScalar(ctx, PromiseGetBundle(pp)->ns, PromiseGetBundle(pp)->name, fp->name, method_name);
args = fp->args;
}
else if ((vp = PromiseGetConstraintAsRval(pp, attrname, RVAL_TYPE_SCALAR)))
{
ExpandScalar(ctx, PromiseGetBundle(pp)->ns, PromiseGetBundle(pp)->name, (char *) vp, method_name);
args = NULL;
}
else
{
return PROMISE_RESULT_NOOP;
}
}
GetLockName(lockname, "method", pp->promiser, args);
thislock = AcquireLock(ctx, lockname, VUQNAME, CFSTARTTIME, a.transaction, pp, false);
if (thislock.lock == NULL)
{
return PROMISE_RESULT_SKIPPED;
}
PromiseBanner(pp);
char ns[CF_MAXVARSIZE] = "";
char bundle_name[CF_MAXVARSIZE] = "";
SplitScopeName(method_name, ns, bundle_name);
bp = PolicyGetBundle(PolicyFromPromise(pp), EmptyString(ns) ? NULL : ns, "agent", bundle_name);
if (!bp)
{
bp = PolicyGetBundle(PolicyFromPromise(pp), EmptyString(ns) ? NULL : ns, "common", bundle_name);
}
PromiseResult result = PROMISE_RESULT_NOOP;
if (bp)
{
BannerSubBundle(bp, args);
EvalContextStackPushBundleFrame(ctx, bp, args, a.inherit);
BundleResolve(ctx, bp);
result = ScheduleAgentOperations(ctx, bp);
GetReturnValue(ctx, bp, pp);
EvalContextStackPopFrame(ctx);
switch (result)
{
case PROMISE_RESULT_FAIL:
cfPS(ctx, LOG_LEVEL_INFO, PROMISE_RESULT_FAIL, pp, a, "Method '%s' failed in some repairs or aborted", bp->name);
break;
case PROMISE_RESULT_CHANGE:
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_CHANGE, pp, a, "Method '%s' invoked repairs", bp->name);
break;
default:
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_NOOP, pp, a, "Method '%s' verified", bp->name);
break;
}
for (const Rlist *rp = bp->args; rp; rp = rp->next)
{
const char *lval = RlistScalarValue(rp);
VarRef *ref = VarRefParseFromBundle(lval, bp);
EvalContextVariableRemove(ctx, ref);
VarRefDestroy(ref);
}
}
else
{
if (IsCf3VarString(method_name))
{
Log(LOG_LEVEL_ERR,
"A variable seems to have been used for the name of the method. In this case, the promiser also needs to contain the unique name of the method");
}
if (bp && (bp->name))
{
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_FAIL, pp, a, "Method '%s' was used but was not defined", bp->name);
result = PromiseResultUpdate(result, PROMISE_RESULT_FAIL);
}
else
{
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_FAIL, pp, a,
"A method attempted to use a bundle '%s' that was apparently not defined", method_name);
result = PromiseResultUpdate(result, PROMISE_RESULT_FAIL);
}
}
YieldCurrentLock(thislock);
return result;
}
