Exemple #1
0
Rval ExpandDanglers(EvalContext *ctx, const char *ns, const char *scope, Rval rval, const Promise *pp)
{
    assert(ctx);
    assert(pp);

    switch (rval.type)
    {
    case RVAL_TYPE_SCALAR:
        if (IsCf3VarString(RvalScalarValue(rval)))
        {
            return EvaluateFinalRval(ctx, PromiseGetPolicy(pp), ns, scope, rval, false, pp);
        }
        else
        {
            return RvalCopy(rval);
        }
        break;

    case RVAL_TYPE_LIST:
        {
            Rlist *result_list = RlistCopy(RvalRlistValue(rval));
            RlistFlatten(ctx, &result_list);
            return RvalNew(result_list, RVAL_TYPE_LIST);
        }
        break;

    case RVAL_TYPE_CONTAINER:
    case RVAL_TYPE_FNCALL:
    case RVAL_TYPE_NOPROMISEE:
        return RvalCopy(rval);
    }

    ProgrammingError("Unhandled Rval type");
}
Exemple #2
0
static void CopyLocalizedReferencesToBundleScope(EvalContext *ctx,
                                                 const Bundle *bundle,
                                                 const Rlist *ref_names)
{
    for (const Rlist *rp = ref_names; rp != NULL; rp = rp->next)
    {
        const char *mangled = RlistScalarValue(rp);
        char *demangled = xstrdup(mangled);
        DeMangleVarRefString(demangled, strlen(demangled));

        if (strchr(RlistScalarValue(rp), CF_MAPPEDLIST))
        {
            VarRef *demangled_ref = VarRefParseFromBundle(demangled, bundle);

            DataType value_type;
            const void *value = EvalContextVariableGet(ctx, demangled_ref, &value_type);
            if (!value)
            {
                ProgrammingError("Couldn't find extracted variable '%s'", mangled);
            }

            VarRef *mangled_ref = VarRefParseFromBundle(mangled, bundle);

            switch (DataTypeToRvalType(value_type))
            {
            case RVAL_TYPE_LIST:
                {
                    Rlist *list = RlistCopy(value);
                    RlistFlatten(ctx, &list);

                    EvalContextVariablePut(ctx, mangled_ref, list, value_type, "source=agent");
                    RlistDestroy(list);
                }
                break;

            case RVAL_TYPE_CONTAINER:
            case RVAL_TYPE_SCALAR:
                EvalContextVariablePut(ctx, mangled_ref, value, value_type, "source=agent");
                break;

            case RVAL_TYPE_FNCALL:
            case RVAL_TYPE_NOPROMISEE:
                ProgrammingError("Illegal rval type in switch %d", DataTypeToRvalType(value_type));
            }

            VarRefDestroy(mangled_ref);
            VarRefDestroy(demangled_ref);
        }

        free(demangled);
    }
}
Exemple #3
0
PromiseResult VerifyVarPromise(EvalContext *ctx, const Promise *pp, bool allow_duplicates)
{
    ConvergeVariableOptions opts = CollectConvergeVariableOptions(ctx, pp, allow_duplicates);
    if (!opts.should_converge)
    {
        return PROMISE_RESULT_NOOP;
    }

    Attributes a = { {0} };
    // More consideration needs to be given to using these
    //a.transaction = GetTransactionConstraints(pp);
    a.classes = GetClassDefinitionConstraints(ctx, pp);

    VarRef *ref = VarRefParseFromBundle(pp->promiser, PromiseGetBundle(pp));
    if (strcmp("meta", pp->parent_promise_type->name) == 0)
    {
        VarRefSetMeta(ref, true);
    }

    DataType existing_value_type = CF_DATA_TYPE_NONE;
    const void *const existing_value =
        IsExpandable(pp->promiser) ? NULL : EvalContextVariableGet(ctx, ref, &existing_value_type);

    PromiseResult result = PROMISE_RESULT_NOOP;
    Rval rval = opts.cp_save->rval;

    if (rval.item != NULL)
    {
        DataType data_type = DataTypeFromString(opts.cp_save->lval);

        if (opts.cp_save->rval.type == RVAL_TYPE_FNCALL)
        {
            FnCall *fp = RvalFnCallValue(rval);
            const FnCallType *fn = FnCallTypeGet(fp->name);
            if (!fn)
            {
                assert(false && "Canary: should have been caught before this point");
                FatalError(ctx, "While setting variable '%s' in bundle '%s', unknown function '%s'",
                           pp->promiser, PromiseGetBundle(pp)->name, fp->name);
            }

            if (fn->dtype != DataTypeFromString(opts.cp_save->lval))
            {
                FatalError(ctx, "While setting variable '%s' in bundle '%s', variable declared type '%s' but function '%s' returns type '%s'",
                           pp->promiser, PromiseGetBundle(pp)->name, opts.cp_save->lval,
                           fp->name, DataTypeToString(fn->dtype));
            }

            if (existing_value_type != CF_DATA_TYPE_NONE)
            {
                // Already did this
                VarRefDestroy(ref);
                return PROMISE_RESULT_NOOP;
            }

            FnCallResult res = FnCallEvaluate(ctx, PromiseGetPolicy(pp), fp, pp);

            if (res.status == FNCALL_FAILURE)
            {
                /* We do not assign variables to failed fn calls */
                RvalDestroy(res.rval);
                VarRefDestroy(ref);
                return PROMISE_RESULT_NOOP;
            }
            else
            {
                rval = res.rval;
            }
        }
        else
        {
            Buffer *conv = BufferNew();
            bool malformed = false, misprint = false;

            if (strcmp(opts.cp_save->lval, "int") == 0)
            {
                long int asint = IntFromString(opts.cp_save->rval.item);
                if (asint == CF_NOINT)
                {
                    malformed = true;
                }
                else if (0 > BufferPrintf(conv, "%ld", asint))
                {
                    misprint = true;
                }
                else
                {
                    rval = RvalNew(BufferData(conv), opts.cp_save->rval.type);
                }
            }
            else if (strcmp(opts.cp_save->lval, "real") == 0)
            {
                double real_value;
                if (!DoubleFromString(opts.cp_save->rval.item, &real_value))
                {
                    malformed = true;
                }
                else if (0 > BufferPrintf(conv, "%lf", real_value))
                {
                    misprint = true;
                }
                else
                {
                    rval = RvalNew(BufferData(conv), opts.cp_save->rval.type);
                }
            }
            else
            {
                rval = RvalCopy(opts.cp_save->rval);
            }
            BufferDestroy(conv);

            if (malformed)
            {
                /* Arises when opts->cp_save->rval.item isn't yet expanded. */
                /* Has already been logged by *FromString */
                VarRefDestroy(ref);
                return PromiseResultUpdate(result, PROMISE_RESULT_FAIL);
            }
            else if (misprint)
            {
                /* Even though no problems with memory allocation can
                 * get here, there might be other problems. */
                UnexpectedError("Problems writing to buffer");
                VarRefDestroy(ref);
                return PROMISE_RESULT_NOOP;
            }
            else if (rval.type == RVAL_TYPE_LIST)
            {
                Rlist *rval_list = RvalRlistValue(rval);
                RlistFlatten(ctx, &rval_list);
                rval.item = rval_list;
            }
        }

        if (Epimenides(ctx, PromiseGetBundle(pp)->ns, PromiseGetBundle(pp)->name, pp->promiser, rval, 0))
        {
            Log(LOG_LEVEL_ERR, "Variable '%s' contains itself indirectly - an unkeepable promise", pp->promiser);
            exit(EXIT_FAILURE);
        }
        else
        {
            /* See if the variable needs recursively expanding again */

            Rval returnval = EvaluateFinalRval(ctx, PromiseGetPolicy(pp), ref->ns, ref->scope, rval, true, pp);

            RvalDestroy(rval);

            // freed before function exit
            rval = returnval;
        }

        if (existing_value_type != CF_DATA_TYPE_NONE)
        {
            if (!opts.ok_redefine)    /* only on second iteration, else we ignore broken promises */
            {
                if (THIS_AGENT_TYPE == AGENT_TYPE_COMMON &&
                     !CompareRval(existing_value, DataTypeToRvalType(existing_value_type),
                                  rval.item, rval.type))
                {
                    switch (rval.type)
                    {
                    case RVAL_TYPE_SCALAR:
                        Log(LOG_LEVEL_VERBOSE, "Redefinition of a constant scalar '%s', was '%s' now '%s'",
                            pp->promiser, (const char *)existing_value, RvalScalarValue(rval));
                        PromiseRef(LOG_LEVEL_VERBOSE, pp);
                        break;

                    case RVAL_TYPE_LIST:
                        {
                            Log(LOG_LEVEL_VERBOSE, "Redefinition of a constant list '%s'", pp->promiser);
                            Writer *w = StringWriter();
                            RlistWrite(w, existing_value);
                            char *oldstr = StringWriterClose(w);
                            Log(LOG_LEVEL_VERBOSE, "Old value '%s'", oldstr);
                            free(oldstr);

                            w = StringWriter();
                            RlistWrite(w, rval.item);
                            char *newstr = StringWriterClose(w);
                            Log(LOG_LEVEL_VERBOSE, " New value '%s'", newstr);
                            free(newstr);
                            PromiseRef(LOG_LEVEL_VERBOSE, pp);
                        }
                        break;

                    case RVAL_TYPE_CONTAINER:
                    case RVAL_TYPE_FNCALL:
                    case RVAL_TYPE_NOPROMISEE:
                        break;
                    }
                }

                RvalDestroy(rval);
                VarRefDestroy(ref);
                return result;
            }
        }

        if (IsCf3VarString(pp->promiser))
        {
            // Unexpanded variables, we don't do anything with
            RvalDestroy(rval);
            VarRefDestroy(ref);
            return result;
        }

        if (!IsValidVariableName(pp->promiser))
        {
            Log(LOG_LEVEL_ERR, "Variable identifier contains illegal characters");
            PromiseRef(LOG_LEVEL_ERR, pp);
            RvalDestroy(rval);
            VarRefDestroy(ref);
            return result;
        }

        if (rval.type == RVAL_TYPE_LIST)
        {
            if (opts.drop_undefined)
            {
                for (Rlist *rp = RvalRlistValue(rval); rp; rp = rp->next)
                {
                    if (IsNakedVar(RlistScalarValue(rp), '@'))
                    {
                        free(rp->val.item);
                        rp->val.item = xstrdup(CF_NULL_VALUE);
                    }
                }
            }

            for (const Rlist *rp = RvalRlistValue(rval); rp; rp = rp->next)
            {
                switch (rp->val.type)
                {
                case RVAL_TYPE_SCALAR:
                    break;

                default:
                    // Cannot assign variable because value is a list containing a non-scalar item
                    VarRefDestroy(ref);
                    RvalDestroy(rval);
                    return result;
                }
            }
        }

        if (ref->num_indices > 0)
        {
            if (data_type == CF_DATA_TYPE_CONTAINER)
            {
                char *lval_str = VarRefToString(ref, true);
                Log(LOG_LEVEL_ERR, "Cannot assign a container to an indexed variable name '%s'. Should be assigned to '%s' instead",
                    lval_str, ref->lval);
                free(lval_str);
                VarRefDestroy(ref);
                RvalDestroy(rval);
                return result;
            }
            else
            {
                DataType existing_type = CF_DATA_TYPE_NONE;
                VarRef *base_ref = VarRefCopyIndexless(ref);
                if (EvalContextVariableGet(ctx, ref, &existing_type) && existing_type == CF_DATA_TYPE_CONTAINER)
                {
                    char *lval_str = VarRefToString(ref, true);
                    char *base_ref_str = VarRefToString(base_ref, true);
                    Log(LOG_LEVEL_ERR, "Cannot assign value to indexed variable name '%s', because a container is already assigned to the base name '%s'",
                        lval_str, base_ref_str);
                    free(lval_str);
                    free(base_ref_str);
                    VarRefDestroy(base_ref);
                    VarRefDestroy(ref);
                    RvalDestroy(rval);
                    return result;
                }
                VarRefDestroy(base_ref);
            }
        }


        DataType required_datatype = DataTypeFromString(opts.cp_save->lval);
        if (rval.type != DataTypeToRvalType(required_datatype))
        {
            char *ref_str = VarRefToString(ref, true);
            char *value_str = RvalToString(rval);
            Log(LOG_LEVEL_ERR, "Variable '%s' expected a variable of type '%s', but was given incompatible value '%s'",
                ref_str, DataTypeToString(required_datatype), value_str);
            PromiseRef(LOG_LEVEL_ERR, pp);
            free(ref_str);
            free(value_str);
            VarRefDestroy(ref);
            RvalDestroy(rval);
            return PromiseResultUpdate(result, PROMISE_RESULT_FAIL);
        }

        if (!EvalContextVariablePut(ctx, ref, rval.item, required_datatype, "source=promise"))
        {
            Log(LOG_LEVEL_VERBOSE,
                "Unable to converge %s.%s value (possibly empty or infinite regression)",
                ref->scope, pp->promiser);
            PromiseRef(LOG_LEVEL_VERBOSE, pp);
            result = PromiseResultUpdate(result, PROMISE_RESULT_FAIL);
        }
        else
        {
            Rlist *promise_meta = PromiseGetConstraintAsList(ctx, "meta", pp);
            if (promise_meta)
            {
                StringSet *class_meta = EvalContextVariableTags(ctx, ref);
                Buffer *print;
                for (const Rlist *rp = promise_meta; rp; rp = rp->next)
                {
                    StringSetAdd(class_meta, xstrdup(RlistScalarValue(rp)));
                    print = StringSetToBuffer(class_meta, ',');
                    Log(LOG_LEVEL_DEBUG,
                        "Added tag %s to class %s, tags now [%s]",
                        RlistScalarValue(rp), pp->promiser, BufferData(print));
                    BufferDestroy(print);
                }
            }
        }
    }
    else
    {
        Log(LOG_LEVEL_ERR, "Variable %s has no promised value", pp->promiser);
        Log(LOG_LEVEL_ERR, "Rule from %s at/before line %llu",
            PromiseGetBundle(pp)->source_path,
            (unsigned long long)opts.cp_save->offset.line);
        result = PromiseResultUpdate(result, PROMISE_RESULT_FAIL);
    }

    /*
     * FIXME: Variable promise are exempt from normal evaluation logic still, so
     * they are not pushed to evaluation stack before being evaluated. Due to
     * this reason, we cannot call cfPS here to set classes, as it will error
     * out with ProgrammingError.
     *
     * In order to support 'classes' body for variables as well, we call
     * ClassAuditLog explicitly.
     */
    ClassAuditLog(ctx, pp, a, result);

    VarRefDestroy(ref);
    RvalDestroy(rval);

    return result;
}
Exemple #4
0
Promise *DeRefCopyPromise(EvalContext *ctx, const Promise *pp)
{
    Promise *pcopy;
    Rval returnval;

    pcopy = xcalloc(1, sizeof(Promise));

    if (pp->promiser)
    {
        pcopy->promiser = xstrdup(pp->promiser);
    }

    if (pp->promisee.item)
    {
        pcopy->promisee = RvalCopy(pp->promisee);
        if (pcopy->promisee.type == RVAL_TYPE_LIST)
        {
            Rlist *rval_list = RvalRlistValue(pcopy->promisee);
            RlistFlatten(ctx, &rval_list);
            pcopy->promisee.item = rval_list;
        }
    }

    if (pp->classes)
    {
        pcopy->classes = xstrdup(pp->classes);
    }

/* FIXME: may it happen? */
    if ((pp->promisee.item != NULL && pcopy->promisee.item == NULL))
    {
        ProgrammingError("Unable to copy promise");
    }

    pcopy->parent_promise_type = pp->parent_promise_type;
    pcopy->offset.line = pp->offset.line;
    pcopy->comment = pp->comment ? xstrdup(pp->comment) : NULL;
    pcopy->has_subbundles = pp->has_subbundles;
    pcopy->conlist = SeqNew(10, ConstraintDestroy);
    pcopy->org_pp = pp->org_pp;
    pcopy->offset = pp->offset;

/* No further type checking should be necessary here, already done by CheckConstraintTypeMatch */

    for (size_t i = 0; i < SeqLength(pp->conlist); i++)
    {
        Constraint *cp = SeqAt(pp->conlist, i);

        Body *bp = NULL;
        FnCall *fp = NULL;

        /* A body template reference could look like a scalar or fn to the parser w/w () */
        const Policy *policy = PolicyFromPromise(pp);
        Seq *bodies = policy ? policy->bodies : NULL;

        char body_ns[CF_MAXVARSIZE] = "";
        char body_name[CF_MAXVARSIZE] = "";

        switch (cp->rval.type)
        {
        case RVAL_TYPE_SCALAR:
            if (cp->references_body)
            {
                SplitScopeName(RvalScalarValue(cp->rval), body_ns, body_name);
                if (EmptyString(body_ns))
                {
                    strncpy(body_ns, PromiseGetNamespace(pp), CF_MAXVARSIZE);
                }
                bp = IsBody(bodies, body_ns, body_name);
            }
            fp = NULL;
            break;
        case RVAL_TYPE_FNCALL:
            fp = RvalFnCallValue(cp->rval);
            SplitScopeName(fp->name, body_ns, body_name);
            if (EmptyString(body_ns))
            {
                strncpy(body_ns, PromiseGetNamespace(pp), CF_MAXVARSIZE);
            }
            bp = IsBody(bodies, body_ns, body_name);
            break;
        default:
            bp = NULL;
            fp = NULL;
            break;
        }

        /* First case is: we have a body template to expand lval = body(args), .. */

        if (bp)
        {
            EvalContextStackPushBodyFrame(ctx, pcopy, bp, fp ? fp->args : NULL);

            if (strcmp(bp->type, cp->lval) != 0)
            {
                Log(LOG_LEVEL_ERR,
                    "Body type mismatch for body reference '%s' in promise at line %zu of file '%s', '%s' does not equal '%s'",
                      body_name, pp->offset.line, PromiseGetBundle(pp)->source_path, bp->type, cp->lval);
            }

            /* Keep the referent body type as a boolean for convenience when checking later */

            if (IsDefinedClass(ctx, cp->classes, PromiseGetNamespace(pcopy)))
            {
                Constraint *cp_copy = PromiseAppendConstraint(pcopy, cp->lval, (Rval) {xstrdup("true"), RVAL_TYPE_SCALAR }, false);
                cp_copy->offset = cp->offset;
            }

            if (bp->args != NULL)
            {
                /* There are arguments to insert */

                if (fp == NULL || fp->args == NULL)
                {
                    Log(LOG_LEVEL_ERR, "Argument mismatch for body reference '%s' in promise at line %zu of file '%s'",
                          body_name, pp->offset.line, PromiseGetBundle(pp)->source_path);
                }

                for (size_t k = 0; k < SeqLength(bp->conlist); k++)
                {
                    Constraint *scp = SeqAt(bp->conlist, k);

                    returnval = ExpandPrivateRval(ctx, NULL, "body", scp->rval.item, scp->rval.type);
                    if (IsDefinedClass(ctx, scp->classes, PromiseGetNamespace(pcopy)))
                    {
                        Constraint *scp_copy = PromiseAppendConstraint(pcopy, scp->lval, returnval, false);
                        scp_copy->offset = scp->offset;
                    }
                }
            }
            else
            {
                /* No arguments to deal with or body undeclared */

                if (fp != NULL)
                {
                    Log(LOG_LEVEL_ERR,
                          "An apparent body \"%s()\" was undeclared or could have incorrect args, but used in a promise near line %zu of %s (possible unquoted literal value)",
                          body_name, pp->offset.line, PromiseGetBundle(pp)->source_path);
                }
                else
                {
                    for (size_t k = 0; k < SeqLength(bp->conlist); k++)
                    {
                        Constraint *scp = SeqAt(bp->conlist, k);

                        Rval newrv = RvalCopy(scp->rval);
                        if (newrv.type == RVAL_TYPE_LIST)
                        {
                            Rlist *new_list = RvalRlistValue(newrv);
                            RlistFlatten(ctx, &new_list);
                            newrv.item = new_list;
                        }

                        if (IsDefinedClass(ctx, scp->classes, PromiseGetNamespace(pcopy)))
                        {
                            Constraint *scp_copy = PromiseAppendConstraint(pcopy, scp->lval, newrv, false);
                            scp_copy->offset = scp->offset;
                        }
                    }
                }
            }

            EvalContextStackPopFrame(ctx);
        }
        else
        {
            const Policy *policy = PolicyFromPromise(pp);

            if (cp->references_body && !IsBundle(policy->bundles, EmptyString(body_ns) ? NULL : body_ns, body_name))
            {
                Log(LOG_LEVEL_ERR,
                      "Apparent body \"%s()\" was undeclared, but used in a promise near line %zu of %s (possible unquoted literal value)",
                      body_name, pp->offset.line, PromiseGetBundle(pp)->source_path);
            }

            Rval newrv = RvalCopy(cp->rval);
            if (newrv.type == RVAL_TYPE_LIST)
            {
                Rlist *new_list = RvalRlistValue(newrv);
                RlistFlatten(ctx, &new_list);
                newrv.item = new_list;
            }

            if (IsDefinedClass(ctx, cp->classes, PromiseGetNamespace(pcopy)))
            {
                Constraint *cp_copy = PromiseAppendConstraint(pcopy, cp->lval, newrv, false);
                cp_copy->offset = cp->offset;
            }
        }
    }

    return pcopy;
}
Exemple #5
0
void VerifyVarPromise(EvalContext *ctx, const Promise *pp, bool allow_duplicates)
{
    ConvergeVariableOptions opts = CollectConvergeVariableOptions(ctx, pp, allow_duplicates);
    if (!opts.should_converge)
    {
        return;
    }

    char *scope = NULL;
    if (strcmp("meta", pp->parent_promise_type->name) == 0)
    {
        scope = StringConcatenate(2, PromiseGetBundle(pp)->name, "_meta");
    }
    else
    {
        scope = xstrdup(PromiseGetBundle(pp)->name);
    }

    //More consideration needs to be given to using these
    //a.transaction = GetTransactionConstraints(pp);
    Attributes a = { {0} };
    a.classes = GetClassDefinitionConstraints(ctx, pp);

    Rval existing_var_rval;
    DataType existing_var_type = DATA_TYPE_NONE;
    EvalContextVariableGet(ctx, (VarRef) { NULL, scope, pp->promiser }, &existing_var_rval, &existing_var_type);
    Buffer *qualified_scope = BufferNew();
    int result = 0;
    if (strcmp(PromiseGetNamespace(pp), "default") == 0)
    {
        result = BufferSet(qualified_scope, scope, strlen(scope));
        if (result < 0)
        {
            /*
             * Even though there will be no problems with memory allocation, there
             * might be other problems.
             */
            UnexpectedError("Problems writing to buffer");
            free(scope);
            BufferDestroy(&qualified_scope);
            return;
        }
    }
    else
    {
        if (strchr(scope, ':') == NULL)
        {
            result = BufferPrintf(qualified_scope, "%s:%s", PromiseGetNamespace(pp), scope);
            if (result < 0)
            {
                /*
                 * Even though there will be no problems with memory allocation, there
                 * might be other problems.
                 */
                UnexpectedError("Problems writing to buffer");
                free(scope);
                BufferDestroy(&qualified_scope);
                return;
            }
        }
        else
        {
            result = BufferSet(qualified_scope, scope, strlen(scope));
            if (result < 0)
            {
                /*
                 * Even though there will be no problems with memory allocation, there
                 * might be other problems.
                 */
                UnexpectedError("Problems writing to buffer");
                free(scope);
                BufferDestroy(&qualified_scope);
                return;
            }
        }
    }

    PromiseResult promise_result;

    Rval rval = opts.cp_save->rval;

    if (rval.item != NULL)
    {
        FnCall *fp = (FnCall *) rval.item;

        if (opts.cp_save->rval.type == RVAL_TYPE_FNCALL)
        {
            if (existing_var_type != DATA_TYPE_NONE)
            {
                // Already did this
                free(scope);
                BufferDestroy(&qualified_scope);
                return;
            }

            FnCallResult res = FnCallEvaluate(ctx, fp, pp);

            if (res.status == FNCALL_FAILURE)
            {
                /* We do not assign variables to failed fn calls */
                RvalDestroy(res.rval);
                free(scope);
                BufferDestroy(&qualified_scope);
                return;
            }
            else
            {
                rval = res.rval;
            }
        }
        else
        {
            Buffer *conv = BufferNew();

            if (strcmp(opts.cp_save->lval, "int") == 0)
            {
                result = BufferPrintf(conv, "%ld", IntFromString(opts.cp_save->rval.item));
                if (result < 0)
                {
                    /*
                     * Even though there will be no problems with memory allocation, there
                     * might be other problems.
                     */
                    UnexpectedError("Problems writing to buffer");
                    free(scope);
                    BufferDestroy(&qualified_scope);
                    BufferDestroy(&conv);
                    return;
                }
                rval = RvalCopy((Rval) {(char *)BufferData(conv), opts.cp_save->rval.type});
            }
            else if (strcmp(opts.cp_save->lval, "real") == 0)
            {
                double real_value = 0.0;
                if (DoubleFromString(opts.cp_save->rval.item, &real_value))
                {
                    result = BufferPrintf(conv, "%lf", real_value);
                }
                else
                {
                    result = BufferPrintf(conv, "(double conversion error)");
                }

                if (result < 0)
                {
                    /*
                     * Even though there will be no problems with memory allocation, there
                     * might be other problems.
                     */
                    UnexpectedError("Problems writing to buffer");
                    free(scope);
                    BufferDestroy(&conv);
                    BufferDestroy(&qualified_scope);
                    return;
                }
                rval = RvalCopy((Rval) {(char *)BufferData(conv), opts.cp_save->rval.type});
            }
            else
            {
                rval = RvalCopy(opts.cp_save->rval);
            }

            if (rval.type == RVAL_TYPE_LIST)
            {
                Rlist *rval_list = RvalRlistValue(rval);
                RlistFlatten(ctx, &rval_list);
                rval.item = rval_list;
            }

            BufferDestroy(&conv);
        }

        if (Epimenides(ctx, PromiseGetBundle(pp)->name, pp->promiser, rval, 0))
        {
            Log(LOG_LEVEL_ERR, "Variable \"%s\" contains itself indirectly - an unkeepable promise", pp->promiser);
            exit(1);
        }
        else
        {
            /* See if the variable needs recursively expanding again */

            Rval returnval = EvaluateFinalRval(ctx, BufferData(qualified_scope), rval, true, pp);

            RvalDestroy(rval);

            // freed before function exit
            rval = returnval;
        }

        if (existing_var_type != DATA_TYPE_NONE)
        {
            if (opts.ok_redefine)    /* only on second iteration, else we ignore broken promises */
            {
                ScopeDeleteVariable(BufferData(qualified_scope), pp->promiser);
            }
            else if ((THIS_AGENT_TYPE == AGENT_TYPE_COMMON) && (CompareRval(existing_var_rval, rval) == false))
            {
                switch (rval.type)
                {
                case RVAL_TYPE_SCALAR:
                    Log(LOG_LEVEL_VERBOSE, "Redefinition of a constant scalar \"%s\" (was %s now %s)",
                          pp->promiser, RvalScalarValue(existing_var_rval), RvalScalarValue(rval));
                    PromiseRef(LOG_LEVEL_VERBOSE, pp);
                    break;

                case RVAL_TYPE_LIST:
                    {
                        Log(LOG_LEVEL_VERBOSE, "Redefinition of a constant list \"%s\".", pp->promiser);
                        Writer *w = StringWriter();
                        RlistWrite(w, existing_var_rval.item);
                        char *oldstr = StringWriterClose(w);
                        Log(LOG_LEVEL_VERBOSE, "Old value: %s", oldstr);
                        free(oldstr);

                        w = StringWriter();
                        RlistWrite(w, rval.item);
                        char *newstr = StringWriterClose(w);
                        Log(LOG_LEVEL_VERBOSE, " New value: %s", newstr);
                        free(newstr);
                        PromiseRef(LOG_LEVEL_VERBOSE, pp);
                    }
                    break;

                default:
                    break;
                }
            }
        }

        if (IsCf3VarString(pp->promiser))
        {
            // Unexpanded variables, we don't do anything with
            RvalDestroy(rval);
            free(scope);
            BufferDestroy(&qualified_scope);
            return;
        }

        if (!FullTextMatch("[a-zA-Z0-9_\200-\377.]+(\\[.+\\])*", pp->promiser))
        {
            Log(LOG_LEVEL_ERR, "Variable identifier contains illegal characters");
            PromiseRef(LOG_LEVEL_ERR, pp);
            RvalDestroy(rval);
            free(scope);
            BufferDestroy(&qualified_scope);
            return;
        }

        if (opts.drop_undefined && rval.type == RVAL_TYPE_LIST)
        {
            for (Rlist *rp = rval.item; rp != NULL; rp = rp->next)
            {
                if (IsNakedVar(rp->item, '@'))
                {
                    free(rp->item);
                    rp->item = xstrdup(CF_NULL_VALUE);
                }
            }
        }

        if (!EvalContextVariablePut(ctx, (VarRef) { NULL, BufferData(qualified_scope), pp->promiser }, rval, DataTypeFromString(opts.cp_save->lval)))
        {
            Log(LOG_LEVEL_VERBOSE, "Unable to converge %s.%s value (possibly empty or infinite regression)", BufferData(qualified_scope), pp->promiser);
            PromiseRef(LOG_LEVEL_VERBOSE, pp);
            promise_result = PROMISE_RESULT_FAIL;
        }
        else
        {
            promise_result = PROMISE_RESULT_CHANGE;
        }
    }
    else
    {
        Log(LOG_LEVEL_ERR, "Variable %s has no promised value", pp->promiser);
        Log(LOG_LEVEL_ERR, "Rule from %s at/before line %zu", PromiseGetBundle(pp)->source_path, opts.cp_save->offset.line);
        promise_result = PROMISE_RESULT_FAIL;
    }

    /*
     * FIXME: Variable promise are exempt from normal evaluation logic still, so
     * they are not pushed to evaluation stack before being evaluated. Due to
     * this reason, we cannot call cfPS here to set classes, as it will error
     * out with ProgrammingError.
     *
     * In order to support 'classes' body for variables as well, we call
     * ClassAuditLog explicitly.
     */
    ClassAuditLog(ctx, pp, a, promise_result);

    free(scope);
    BufferDestroy(&qualified_scope);
    RvalDestroy(rval);
}
Exemple #6
0
Promise *DeRefCopyPromise(EvalContext *ctx, const Promise *pp)
{
    Promise *pcopy;
    Rval returnval;

    if (pp->promisee.item)
    {
        CfDebug("CopyPromise(%s->", pp->promiser);
        if (DEBUG)
        {
            RvalShow(stdout, pp->promisee);
        }
        CfDebug("\n");
    }
    else
    {
        CfDebug("CopyPromise(%s->)\n", pp->promiser);
    }

    pcopy = xcalloc(1, sizeof(Promise));

    if (pp->promiser)
    {
        pcopy->promiser = xstrdup(pp->promiser);
    }

    if (pp->promisee.item)
    {
        pcopy->promisee = RvalCopy(pp->promisee);
        if (pcopy->promisee.type == RVAL_TYPE_LIST)
        {
            Rlist *rval_list = RvalRlistValue(pcopy->promisee);
            RlistFlatten(ctx, &rval_list);
            pcopy->promisee.item = rval_list;
        }
    }

    if (pp->classes)
    {
        pcopy->classes = xstrdup(pp->classes);
    }

/* FIXME: may it happen? */
    if ((pp->promisee.item != NULL && pcopy->promisee.item == NULL))
    {
        ProgrammingError("Unable to copy promise");
    }

    pcopy->parent_promise_type = pp->parent_promise_type;
    pcopy->offset.line = pp->offset.line;
    pcopy->comment = pp->comment ? xstrdup(pp->comment) : NULL;
    pcopy->has_subbundles = pp->has_subbundles;
    pcopy->conlist = SeqNew(10, ConstraintDestroy);
    pcopy->org_pp = pp->org_pp;
    pcopy->offset = pp->offset;

    CfDebug("Copying promise constraints\n\n");

/* No further type checking should be necessary here, already done by CheckConstraintTypeMatch */

    for (size_t i = 0; i < SeqLength(pp->conlist); i++)
    {
        Constraint *cp = SeqAt(pp->conlist, i);

        Body *bp = NULL;
        FnCall *fp = NULL;
        char *bodyname = NULL;

        /* A body template reference could look like a scalar or fn to the parser w/w () */
        Policy *policy = PolicyFromPromise(pp);
        Seq *bodies = policy ? policy->bodies : NULL;

        switch (cp->rval.type)
        {
        case RVAL_TYPE_SCALAR:
            bodyname = (char *) cp->rval.item;
            if (cp->references_body)
            {
                bp = IsBody(bodies, PromiseGetNamespace(pp), bodyname);
            }
            fp = NULL;
            break;
        case RVAL_TYPE_FNCALL:
            fp = (FnCall *) cp->rval.item;
            bodyname = fp->name;
            bp = IsBody(bodies, PromiseGetNamespace(pp), bodyname);
            break;
        default:
            bp = NULL;
            fp = NULL;
            bodyname = NULL;
            break;
        }

        /* First case is: we have a body template to expand lval = body(args), .. */

        if (bp)
        {
            EvalContextStackPushBodyFrame(ctx, bp);

            if (strcmp(bp->type, cp->lval) != 0)
            {
                Log(LOG_LEVEL_ERR,
                      "Body type mismatch for body reference \"%s\" in promise at line %zu of %s (%s != %s)\n",
                      bodyname, pp->offset.line, PromiseGetBundle(pp)->source_path, bp->type, cp->lval);
            }

            /* Keep the referent body type as a boolean for convenience when checking later */

            {
                Constraint *cp_copy = PromiseAppendConstraint(pcopy, cp->lval, (Rval) {xstrdup("true"), RVAL_TYPE_SCALAR }, cp->classes, false);
                cp_copy->offset = cp->offset;
            }


            CfDebug("Handling body-lval \"%s\"\n", cp->lval);

            if (bp->args != NULL)
            {
                /* There are arguments to insert */

                if (fp == NULL || fp->args == NULL)
                {
                    Log(LOG_LEVEL_ERR, "Argument mismatch for body reference \"%s\" in promise at line %zu of %s",
                          bodyname, pp->offset.line, PromiseGetBundle(pp)->source_path);
                }

                if (fp && bp && fp->args && bp->args && !ScopeMapBodyArgs(ctx, "body", fp->args, bp->args))
                {
                    Log(LOG_LEVEL_ERR,
                          "Number of arguments does not match for body reference \"%s\" in promise at line %zu of %s\n",
                          bodyname, pp->offset.line, PromiseGetBundle(pp)->source_path);
                }

                for (size_t k = 0; k < SeqLength(bp->conlist); k++)
                {
                    Constraint *scp = SeqAt(bp->conlist, k);

                    CfDebug("Doing arg-mapped sublval = %s (promises.c)\n", scp->lval);
                    returnval = ExpandPrivateRval(ctx, "body", scp->rval);
                    {
                        Constraint *scp_copy = PromiseAppendConstraint(pcopy, scp->lval, returnval, scp->classes, false);
                        scp_copy->offset = scp->offset;
                    }
                }

                ScopeClear("body");
            }
            else
            {
                /* No arguments to deal with or body undeclared */

                if (fp != NULL)
                {
                    Log(LOG_LEVEL_ERR,
                          "An apparent body \"%s()\" was undeclared or could have incorrect args, but used in a promise near line %zu of %s (possible unquoted literal value)",
                          bodyname, pp->offset.line, PromiseGetBundle(pp)->source_path);
                }
                else
                {
                    for (size_t k = 0; k < SeqLength(bp->conlist); k++)
                    {
                        Constraint *scp = SeqAt(bp->conlist, k);

                        CfDebug("Doing sublval = %s (promises.c)\n", scp->lval);

                        Rval newrv = RvalCopy(scp->rval);
                        if (newrv.type == RVAL_TYPE_LIST)
                        {
                            Rlist *new_list = RvalRlistValue(newrv);
                            RlistFlatten(ctx, &new_list);
                            newrv.item = new_list;
                        }

                        {
                            Constraint *scp_copy = PromiseAppendConstraint(pcopy, scp->lval, newrv, scp->classes, false);
                            scp_copy->offset = scp->offset;
                        }
                    }
                }
            }

            EvalContextStackPopFrame(ctx);
        }
        else
        {
            Policy *policy = PolicyFromPromise(pp);

            if (cp->references_body && !IsBundle(policy->bundles, bodyname))
            {
                Log(LOG_LEVEL_ERR,
                      "Apparent body \"%s()\" was undeclared, but used in a promise near line %zu of %s (possible unquoted literal value)",
                      bodyname, pp->offset.line, PromiseGetBundle(pp)->source_path);
            }

            Rval newrv = RvalCopy(cp->rval);
            if (newrv.type == RVAL_TYPE_LIST)
            {
                Rlist *new_list = RvalRlistValue(newrv);
                RlistFlatten(ctx, &new_list);
                newrv.item = new_list;
            }

            {
                Constraint *cp_copy = PromiseAppendConstraint(pcopy, cp->lval, newrv, cp->classes, false);
                cp_copy->offset = cp->offset;
            }
        }
    }

    return pcopy;
}