static ExpressionValue EvalTokenAsClass(const char *classname, void *param)
{
const EvalContext *ctx = ((EvalTokenAsClassContext *)param)->ctx;
const char *ns = ((EvalTokenAsClassContext *)param)->ns;
char qualified_class[CF_MAXVARSIZE];
if (strcmp(classname, "any") == 0)
{
return true;
}
if (strchr(classname, ':'))
{
if (strncmp(classname, "default:", strlen("default:")) == 0)
{
snprintf(qualified_class, CF_MAXVARSIZE, "%s", classname + strlen("default:"));
}
else
{
snprintf(qualified_class, CF_MAXVARSIZE, "%s", classname);
}
}
else if (ns != NULL && strcmp(ns, "default") != 0)
{
snprintf(qualified_class, CF_MAXVARSIZE, "%s:%s", ns, (char *)classname);
}
else
{
snprintf(qualified_class, CF_MAXVARSIZE, "%s", classname);
}
if (EvalContextHeapContainsNegated(ctx, qualified_class))
{
return false;
}
if (EvalContextStackFrameContainsNegated(ctx, qualified_class))
{
return false;
}
if (EvalContextHeapContainsHard(ctx, classname)) // Hard classes are always unqualified
{
return true;
}
if (EvalContextHeapContainsSoft(ctx, qualified_class))
{
return true;
}
if (EvalContextStackFrameContainsSoft(ctx, qualified_class))
{
return true;
}
return false;
}
static void VerifyProcessOp(EvalContext *ctx, Item *procdata, Attributes a, Promise *pp)
{
int matches = 0, do_signals = true, out_of_range, killed = 0, need_to_restart = true;
Item *killlist = NULL;
matches = FindPidMatches(ctx, procdata, &killlist, a, pp->promiser);
/* promise based on number of matches */
if (a.process_count.min_range != CF_NOINT) /* if a range is specified */
{
if ((matches < a.process_count.min_range) || (matches > a.process_count.max_range))
{
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_CHANGE, pp, a, "Process count for '%s' was out of promised range (%d found)", pp->promiser, matches);
for (const Rlist *rp = a.process_count.out_of_range_define; rp != NULL; rp = rp->next)
{
if (!EvalContextHeapContainsSoft(ctx, rp->item))
{
EvalContextHeapAddSoft(ctx, rp->item, PromiseGetNamespace(pp));
}
}
out_of_range = true;
}
else
{
for (const Rlist *rp = a.process_count.in_range_define; rp != NULL; rp = rp->next)
{
if (!EvalContextHeapContainsSoft(ctx, rp->item))
{
EvalContextHeapAddSoft(ctx, rp->item, PromiseGetNamespace(pp));
}
}
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_NOOP, pp, a, "Process promise for '%s' is kept", pp->promiser);
out_of_range = false;
}
}
else
{
out_of_range = true;
}
if (!out_of_range)
{
return;
}
if (a.transaction.action == cfa_warn)
{
do_signals = false;
}
else
{
do_signals = true;
}
/* signal/kill promises for existing matches */
if (do_signals && (matches > 0))
{
if (a.process_stop != NULL)
{
if (DONTDO)
{
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_WARN, pp, a,
"Need to keep process-stop promise for '%s', but only a warning is promised", pp->promiser);
}
else
{
if (IsExecutable(CommandArg0(a.process_stop)))
{
ShellCommandReturnsZero(a.process_stop, SHELL_TYPE_NONE);
}
else
{
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_FAIL, pp, a,
"Process promise to stop '%s' could not be kept because '%s' the stop operator failed",
pp->promiser, a.process_stop);
DeleteItemList(killlist);
return;
}
}
}
killed = DoAllSignals(ctx, killlist, a, pp);
}
/* delegated promise to restart killed or non-existent entries */
need_to_restart = (a.restart_class != NULL) && (killed || (matches == 0));
DeleteItemList(killlist);
if (!need_to_restart)
{
cfPS(ctx, LOG_LEVEL_VERBOSE, PROMISE_RESULT_NOOP, pp, a, "No restart promised for %s", pp->promiser);
return;
}
else
{
if (a.transaction.action == cfa_warn)
{
cfPS(ctx, LOG_LEVEL_ERR, PROMISE_RESULT_WARN, pp, a,
"Need to keep restart promise for '%s', but only a warning is promised", pp->promiser);
}
else
{
cfPS(ctx, LOG_LEVEL_INFO, PROMISE_RESULT_CHANGE, pp, a, "Making a one-time restart promise for '%s'", pp->promiser);
EvalContextHeapAddSoft(ctx, a.restart_class, PromiseGetNamespace(pp));
}
}
}
void EvalContextStackFrameAddSoft(EvalContext *ctx, const char *context)
{
assert(SeqLength(ctx->stack) > 0);
StackFrameBundle frame;
{
StackFrame *last_frame = LastStackFrameBundle(ctx);
if (!last_frame)
{
ProgrammingError("Attempted to add a soft class on the stack, but stack had no bundle frame");
}
frame = last_frame->data.bundle;
}
char copy[CF_BUFSIZE];
if (strcmp(frame.owner->ns, "default") != 0)
{
snprintf(copy, CF_MAXVARSIZE, "%s:%s", frame.owner->ns, context);
}
else
{
strncpy(copy, context, CF_MAXVARSIZE);
}
if (Chop(copy, CF_EXPANDSIZE) == -1)
{
CfOut(OUTPUT_LEVEL_ERROR, "", "Chop was called on a string that seemed to have no terminator");
}
if (strlen(copy) == 0)
{
return;
}
CfDebug("NewBundleClass(%s)\n", copy);
if (IsRegexItemIn(ctx, ctx->heap_abort_current_bundle, copy))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "Bundle %s aborted on defined class \"%s\"\n", frame.owner->name, copy);
ABORTBUNDLE = true;
}
if (IsRegexItemIn(ctx, ctx->heap_abort, copy))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "cf-agent aborted on defined class \"%s\" defined in bundle %s\n", copy, frame.owner->name);
exit(1);
}
if (EvalContextHeapContainsSoft(ctx, copy))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "WARNING - private class \"%s\" in bundle \"%s\" shadows a global class - you should choose a different name to avoid conflicts",
copy, frame.owner->name);
}
if (EvalContextStackFrameContainsSoft(ctx, copy))
{
return;
}
StringSetAdd(frame.contexts, xstrdup(copy));
for (const Item *ip = ctx->heap_abort; ip != NULL; ip = ip->next)
{
if (IsDefinedClass(ctx, ip->name, frame.owner->ns))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "cf-agent aborted on defined class \"%s\" defined in bundle %s\n", copy, frame.owner->name);
exit(1);
}
}
if (!ABORTBUNDLE)
{
for (const Item *ip = ctx->heap_abort_current_bundle; ip != NULL; ip = ip->next)
{
if (IsDefinedClass(ctx, ip->name, frame.owner->ns))
{
CfOut(OUTPUT_LEVEL_ERROR, "", " -> Setting abort for \"%s\" when setting \"%s\"", ip->name, context);
ABORTBUNDLE = true;
break;
}
}
}
}
void EvalContextHeapAddSoft(EvalContext *ctx, const char *context, const char *ns)
{
char context_copy[CF_MAXVARSIZE];
char canonified_context[CF_MAXVARSIZE];
strcpy(canonified_context, context);
if (Chop(canonified_context, CF_EXPANDSIZE) == -1)
{
CfOut(OUTPUT_LEVEL_ERROR, "", "Chop was called on a string that seemed to have no terminator");
}
CanonifyNameInPlace(canonified_context);
if (ns && strcmp(ns, "default") != 0)
{
snprintf(context_copy, CF_MAXVARSIZE, "%s:%s", ns, canonified_context);
}
else
{
strncpy(context_copy, canonified_context, CF_MAXVARSIZE);
}
CfDebug("EvalContextHeapAddSoft(%s)\n", context_copy);
if (strlen(context_copy) == 0)
{
return;
}
if (IsRegexItemIn(ctx, ctx->heap_abort_current_bundle, context_copy))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "Bundle aborted on defined class \"%s\"\n", context_copy);
ABORTBUNDLE = true;
}
if (IsRegexItemIn(ctx, ctx->heap_abort, context_copy))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "cf-agent aborted on defined class \"%s\"\n", context_copy);
exit(1);
}
if (EvalContextHeapContainsSoft(ctx, context_copy))
{
return;
}
StringSetAdd(ctx->heap_soft, xstrdup(context_copy));
for (const Item *ip = ctx->heap_abort; ip != NULL; ip = ip->next)
{
if (IsDefinedClass(ctx, ip->name, ns))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "cf-agent aborted on defined class \"%s\" defined in bundle %s\n", ip->name, StackFrameOwnerName(LastStackFrame(ctx, 0)));
exit(1);
}
}
if (!ABORTBUNDLE)
{
for (const Item *ip = ctx->heap_abort_current_bundle; ip != NULL; ip = ip->next)
{
if (IsDefinedClass(ctx, ip->name, ns))
{
CfOut(OUTPUT_LEVEL_ERROR, "", " -> Setting abort for \"%s\" when setting \"%s\"", ip->name, context_copy);
ABORTBUNDLE = true;
break;
}
}
}
}
void NewBundleClass(EvalContext *ctx, const char *context, const char *bundle, const char *ns)
{
char copy[CF_BUFSIZE];
if (ns && strcmp(ns, "default") != 0)
{
snprintf(copy, CF_MAXVARSIZE, "%s:%s", ns, context);
}
else
{
strncpy(copy, context, CF_MAXVARSIZE);
}
if (Chop(copy, CF_EXPANDSIZE) == -1)
{
CfOut(OUTPUT_LEVEL_ERROR, "", "Chop was called on a string that seemed to have no terminator");
}
if (strlen(copy) == 0)
{
return;
}
CfDebug("NewBundleClass(%s)\n", copy);
if (IsRegexItemIn(ctx, ctx->heap_abort_current_bundle, copy))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "Bundle %s aborted on defined class \"%s\"\n", bundle, copy);
ABORTBUNDLE = true;
}
if (IsRegexItemIn(ctx, ctx->heap_abort, copy))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "cf-agent aborted on defined class \"%s\" defined in bundle %s\n", copy, bundle);
exit(1);
}
if (EvalContextHeapContainsSoft(ctx, copy))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "WARNING - private class \"%s\" in bundle \"%s\" shadows a global class - you should choose a different name to avoid conflicts", copy, bundle);
}
if (EvalContextStackFrameContainsSoft(ctx, copy))
{
return;
}
EvalContextStackFrameAddSoft(ctx, copy);
for (const Item *ip = ctx->heap_abort; ip != NULL; ip = ip->next)
{
if (IsDefinedClass(ctx, ip->name, ns))
{
CfOut(OUTPUT_LEVEL_ERROR, "", "cf-agent aborted on defined class \"%s\" defined in bundle %s\n", copy, bundle);
exit(1);
}
}
if (!ABORTBUNDLE)
{
for (const Item *ip = ctx->heap_abort_current_bundle; ip != NULL; ip = ip->next)
{
if (IsDefinedClass(ctx, ip->name, ns))
{
CfOut(OUTPUT_LEVEL_ERROR, "", " -> Setting abort for \"%s\" when setting \"%s\"", ip->name, context);
ABORTBUNDLE = true;
break;
}
}
}
}
