void PolicyPrintAsJson(Writer *writer, const char *filename, Bundle *bundles, Body *bodies) { JsonElement *json_policy = JsonObjectCreate(10); JsonObjectAppendString(json_policy, "name", filename); { JsonElement *json_bundles = JsonArrayCreate(10); Bundle *bp = NULL; for (bp = bundles; bp != NULL; bp = bp->next) { JsonArrayAppendObject(json_bundles, ExportBundleAsJson(bp)); } JsonObjectAppendArray(json_policy, "bundles", json_bundles); } { JsonElement *json_bodies = JsonArrayCreate(10); Body *bdp = NULL; for (bdp = bodies; bdp != NULL; bdp = bdp->next) { JsonArrayAppendObject(json_bodies, ExportBodyAsJson(bdp)); } JsonObjectAppendArray(json_policy, "bodies", json_bodies); } JsonElementPrint(writer, json_policy, 0); JsonElementDestroy(json_policy); }
static JsonElement *ExportAttributeValueAsJson(Rval rval) { JsonElement *json_attribute = JsonObjectCreate(10); switch (rval.rtype) { case CF_SCALAR: { char buffer[CF_BUFSIZE]; EscapeQuotes((const char *) rval.item, buffer, sizeof(buffer)); JsonObjectAppendString(json_attribute, "type", "string"); JsonObjectAppendString(json_attribute, "value", buffer); } return json_attribute; case CF_LIST: { Rlist *rp = NULL; JsonElement *list = JsonArrayCreate(10); JsonObjectAppendString(json_attribute, "type", "list"); for (rp = (Rlist *) rval.item; rp != NULL; rp = rp->next) { JsonArrayAppendObject(list, ExportAttributeValueAsJson((Rval) {rp->item, rp->type})); } JsonObjectAppendArray(json_attribute, "value", list); return json_attribute; } case CF_FNCALL: { Rlist *argp = NULL; FnCall *call = (FnCall *) rval.item; JsonObjectAppendString(json_attribute, "type", "function-call"); JsonObjectAppendString(json_attribute, "name", call->name); { JsonElement *arguments = JsonArrayCreate(10); for (argp = call->args; argp != NULL; argp = argp->next) { JsonArrayAppendObject(arguments, ExportAttributeValueAsJson((Rval) {argp->item, argp->type})); } JsonObjectAppendArray(json_attribute, "arguments", arguments); } return json_attribute; } default: FatalError("Attempted to export attribute of type: %c", rval.rtype); return NULL; } }
static void test_merge_array(void) { JsonElement *a = JsonArrayCreate(2); JsonArrayAppendString(a, "a"); JsonArrayAppendString(a, "b"); JsonElement *b = JsonArrayCreate(2); JsonArrayAppendString(b, "c"); JsonArrayAppendString(b, "d"); JsonElement *c = JsonMerge(a, b); assert_int_equal(2, JsonLength(a)); assert_int_equal(2, JsonLength(b)); assert_int_equal(4, JsonLength(c)); assert_string_equal("a", JsonArrayGetAsString(c, 0)); assert_string_equal("b", JsonArrayGetAsString(c, 1)); assert_string_equal("c", JsonArrayGetAsString(c, 2)); assert_string_equal("d", JsonArrayGetAsString(c, 3)); JsonDestroy(a); JsonDestroy(b); JsonDestroy(c); }
static JsonElement *ExportBundleClassesAsJson(Promise *promises) { JsonElement *json_contexts = JsonArrayCreate(10); JsonElement *json_promises = JsonArrayCreate(10); char *current_context = "any"; size_t context_offset_start = -1; size_t context_offset_end = -1; Promise *pp = NULL; for (pp = promises; pp != NULL; pp = pp->next) { JsonElement *json_promise = JsonObjectCreate(10); JsonObjectAppendInteger(json_promise, "offset", pp->offset.start); { JsonElement *json_promise_attributes = JsonArrayCreate(10); Constraint *cp = NULL; for (cp = pp->conlist; cp != NULL; cp = cp->next) { JsonElement *json_attribute = JsonObjectCreate(10); JsonObjectAppendInteger(json_attribute, "offset", cp->offset.start); JsonObjectAppendInteger(json_attribute, "offset-end", cp->offset.end); context_offset_end = cp->offset.end; JsonObjectAppendString(json_attribute, "lval", cp->lval); JsonObjectAppendObject(json_attribute, "rval", ExportAttributeValueAsJson(cp->rval)); JsonArrayAppendObject(json_promise_attributes, json_attribute); } JsonObjectAppendInteger(json_promise, "offset-end", context_offset_end); JsonObjectAppendString(json_promise, "promiser", pp->promiser); /* FIXME: does not work for lists */ if (pp->promisee.rtype == CF_SCALAR || pp->promisee.rtype == CF_NOPROMISEE) { JsonObjectAppendString(json_promise, "promisee", pp->promisee.item); } JsonObjectAppendArray(json_promise, "attributes", json_promise_attributes); } JsonArrayAppendObject(json_promises, json_promise); if (pp->next == NULL || strcmp(current_context, pp->next->classes) != 0) { JsonArrayAppendObject(json_contexts, CreateContextAsJson(current_context, context_offset_start, context_offset_end, "promises", json_promises)); current_context = pp->classes; } } return json_contexts; }
static JsonElement *ExportAttributesSyntaxAsJson(const ConstraintSyntax attributes[]) { JsonElement *json = JsonObjectCreate(10); int i = 0; if (attributes == NULL) { return json; } for (i = 0; attributes[i].lval != NULL; i++) { if (attributes[i].range.validation_string == CF_BUNDLE) { /* TODO: must handle edit_line somehow */ continue; } else if (attributes[i].dtype == DATA_TYPE_BODY) { JsonElement *json_attributes = ExportAttributesSyntaxAsJson(attributes[i].range.body_type_syntax->constraints); JsonObjectAppendObject(json, attributes[i].lval, json_attributes); } else { JsonElement *attribute = JsonObjectCreate(10); JsonObjectAppendString(attribute, "datatype", CF_DATATYPES[attributes[i].dtype]); if (strlen(attributes[i].range.validation_string) == 0) { JsonObjectAppendString(attribute, "pcre-range", ".*"); } else if (attributes[i].dtype == DATA_TYPE_OPTION || attributes[i].dtype == DATA_TYPE_OPTION_LIST) { JsonElement *options = JsonArrayCreate(10); char options_buffer[CF_BUFSIZE]; char *option = NULL; strcpy(options_buffer, attributes[i].range.validation_string); for (option = strtok(options_buffer, ","); option != NULL; option = strtok(NULL, ",")) { JsonArrayAppendString(options, option); } JsonObjectAppendArray(attribute, "pcre-range", options); } else { char *pcre_range = PCREStringToJsonString(attributes[i].range.validation_string); JsonObjectAppendString(attribute, "pcre-range", pcre_range); } JsonObjectAppendObject(json, attributes[i].lval, attribute); } } return json; }
static JsonElement *FnCallTypeToJson(const FnCallType *fn_syntax) { JsonElement *json_fn = JsonObjectCreate(10); JsonObjectAppendString(json_fn, "status", SyntaxStatusToString(fn_syntax->status)); JsonObjectAppendString(json_fn, "returnType", DataTypeToString(fn_syntax->dtype)); { JsonElement *params = JsonArrayCreate(10); for (int i = 0; fn_syntax->args[i].pattern; i++) { const FnCallArg *param = &fn_syntax->args[i]; JsonElement *json_param = JsonObjectCreate(2); JsonObjectAppendString(json_param, "type", DataTypeToString(param->dtype)); JsonObjectAppendString(json_param, "range", param->pattern); JsonArrayAppendObject(params, json_param); } JsonObjectAppendArray(json_fn, "parameters", params); } JsonObjectAppendBool(json_fn, "variadic", fn_syntax->options & FNCALL_OPTION_VARARG); JsonObjectAppendBool(json_fn, "cached", fn_syntax->options & FNCALL_OPTION_CACHED); JsonObjectAppendString(json_fn, "category", FnCallCategoryToString(fn_syntax->category)); return json_fn; }
static JsonElement *ExportBodyAsJson(Body *body) { JsonElement *json_body = JsonObjectCreate(10); JsonObjectAppendInteger(json_body, "offset", body->offset.start); JsonObjectAppendInteger(json_body, "offset-end", body->offset.end); JsonObjectAppendString(json_body, "name", body->name); JsonObjectAppendString(json_body, "body-type", body->type); { JsonElement *json_args = JsonArrayCreate(10); Rlist *argp = NULL; for (argp = body->args; argp != NULL; argp = argp->next) { JsonArrayAppendString(json_args, argp->item); } JsonObjectAppendArray(json_body, "arguments", json_args); } JsonObjectAppendArray(json_body, "classes", ExportBodyClassesAsJson(body->conlist)); return json_body; }
JsonElement *FnCallToJson(FnCall *fp) { assert(fp); JsonElement *object = JsonObjectCreate(3); JsonObjectAppendString(object, "name", fp->name); JsonObjectAppendString(object, "type", "function-call"); JsonElement *argsArray = JsonArrayCreate(fp->argc); for (Rlist *rp = fp->args; rp != NULL; rp = rp->next) { switch (rp->type) { case CF_SCALAR: JsonArrayAppendString(argsArray, (const char *) rp->item); break; case CF_FNCALL: JsonArrayAppendObject(argsArray, FnCallToJson((FnCall *) rp->item)); break; default: assert(false && "Unknown argument type"); break; } } JsonObjectAppendArray(object, "arguments", argsArray); return object; }
static JsonElement *FnCallToJson(const FnCall *fp) { assert(fp); JsonElement *object = JsonObjectCreate(3); JsonObjectAppendString(object, "name", fp->name); JsonObjectAppendString(object, "type", "function-call"); JsonElement *argsArray = JsonArrayCreate(5); for (Rlist *rp = fp->args; rp != NULL; rp = rp->next) { switch (rp->val.type) { case RVAL_TYPE_SCALAR: JsonArrayAppendString(argsArray, RlistScalarValue(rp)); break; case RVAL_TYPE_FNCALL: JsonArrayAppendObject(argsArray, FnCallToJson(RlistFnCallValue(rp))); break; default: assert(false && "Unknown argument type"); break; } } JsonObjectAppendArray(object, "arguments", argsArray); return object; }
static JsonElement *RlistToJson(Rlist *list) { JsonElement *array = JsonArrayCreate(RlistLen(list)); for (Rlist *rp = list; rp; rp = rp->next) { switch (rp->val.type) { case RVAL_TYPE_SCALAR: JsonArrayAppendString(array, RlistScalarValue(rp)); break; case RVAL_TYPE_LIST: JsonArrayAppendArray(array, RlistToJson(RlistRlistValue(rp))); break; case RVAL_TYPE_FNCALL: JsonArrayAppendObject(array, FnCallToJson(RlistFnCallValue(rp))); break; default: assert(false && "Unsupported item type in rlist"); break; } } return array; }
static JsonElement *JsonBundleTypeNew(void) { JsonElement *json_bundle_type = JsonObjectCreate(2); JsonObjectAppendString(json_bundle_type, "status", SyntaxStatusToString(SYNTAX_STATUS_NORMAL)); JsonObjectAppendArray(json_bundle_type, "promiseTypes", JsonArrayCreate(50)); return json_bundle_type; }
static JsonElement *ExportBundleAsJson(Bundle *bundle) { JsonElement *json_bundle = JsonObjectCreate(10); JsonObjectAppendInteger(json_bundle, "offset", bundle->offset.start); JsonObjectAppendInteger(json_bundle, "offset-end", bundle->offset.end); JsonObjectAppendString(json_bundle, "name", bundle->name); JsonObjectAppendString(json_bundle, "bundle-type", bundle->type); { JsonElement *json_args = JsonArrayCreate(10); Rlist *argp = NULL; for (argp = bundle->args; argp != NULL; argp = argp->next) { JsonArrayAppendString(json_args, argp->item); } JsonObjectAppendArray(json_bundle, "arguments", json_args); } { JsonElement *json_promise_types = JsonArrayCreate(10); SubType *sp = NULL; for (sp = bundle->subtypes; sp != NULL; sp = sp->next) { JsonElement *json_promise_type = JsonObjectCreate(10); JsonObjectAppendInteger(json_promise_type, "offset", sp->offset.start); JsonObjectAppendInteger(json_promise_type, "offset-end", sp->offset.end); JsonObjectAppendString(json_promise_type, "name", sp->name); JsonObjectAppendArray(json_promise_type, "classes", ExportBundleClassesAsJson(sp->promiselist)); JsonArrayAppendObject(json_promise_types, json_promise_type); } JsonObjectAppendArray(json_bundle, "promise-types", json_promise_types); } return json_bundle; }
static void test_show_array_empty(void **state) { JsonElement *array = JsonArrayCreate(10); Writer *writer = StringWriter(); JsonElementPrint(writer, array, 0); assert_string_equal("[]", StringWriterData(writer)); JsonElementDestroy(array); }
static void test_array_get_string(void) { JsonElement *arr = JsonArrayCreate(10); JsonArrayAppendString(arr, "first"); JsonArrayAppendString(arr, "second"); assert_string_equal(JsonArrayGetAsString(arr, 1), "second"); assert_string_equal(JsonArrayGetAsString(arr, 0), "first"); JsonDestroy(arr); }
JsonElement *StringSetToJson(const StringSet *set) { JsonElement *arr = JsonArrayCreate(StringSetSize(set)); StringSetIterator it = StringSetIteratorInit((StringSet *)set); const char *el = NULL; while ((el = StringSetIteratorNext(&it))) { JsonArrayAppendString(arr, el); } return arr; }
static void test_show_array_empty(void) { JsonElement *array = JsonArrayCreate(10); Writer *writer = StringWriter(); JsonWrite(writer, array, 0); char *output = StringWriterClose(writer); assert_string_equal("[]", output); JsonDestroy(array); free(output); }
static JsonElement *ExportBodyClassesAsJson(Constraint *constraints) { JsonElement *json_contexts = JsonArrayCreate(10); JsonElement *json_attributes = JsonArrayCreate(10); char *current_context = "any"; size_t context_offset_start = -1; size_t context_offset_end = -1; Constraint *cp = NULL; for (cp = constraints; cp != NULL; cp = cp->next) { JsonElement *json_attribute = JsonObjectCreate(10); JsonObjectAppendInteger(json_attribute, "offset", cp->offset.start); JsonObjectAppendInteger(json_attribute, "offset-end", cp->offset.end); context_offset_start = cp->offset.context; context_offset_end = cp->offset.end; JsonObjectAppendString(json_attribute, "lval", cp->lval); JsonObjectAppendObject(json_attribute, "rval", ExportAttributeValueAsJson(cp->rval)); JsonArrayAppendObject(json_attributes, json_attribute); if (cp->next == NULL || strcmp(current_context, cp->next->classes) != 0) { JsonArrayAppendObject(json_contexts, CreateContextAsJson(current_context, context_offset_start, context_offset_end, "attributes", json_attributes)); current_context = cp->classes; } } return json_contexts; }
static void test_show_array_infinity(void) { JsonElement *array = JsonArrayCreate(10); JsonArrayAppendReal(array, INFINITY); Writer *writer = StringWriter(); JsonWrite(writer, array, 0); char *output = StringWriterClose(writer); assert_string_equal("[\n 0.0000\n]", output); JsonDestroy(array); free(output); }
static void test_show_array_nan(void **state) { JsonElement *array = JsonArrayCreate(10); JsonArrayAppendReal(array, sqrt(-1)); Writer *writer = StringWriter(); JsonElementPrint(writer, array, 0); char *output = StringWriterClose(writer); assert_string_equal("[\n 0.0000\n]", output); JsonElementDestroy(array); free(output); }
static void test_show_array(void **state) { JsonElement *array = JsonArrayCreate(10); JsonArrayAppendString(array, "one"); JsonArrayAppendString(array, "two"); Writer *writer = StringWriter(); JsonElementPrint(writer, array, 0); assert_string_equal(ARRAY_SIMPLE, StringWriterData(writer)); JsonElementDestroy(array); }
static void test_show_array_compact(void) { JsonElement *array = JsonArrayCreate(10); JsonArrayAppendString(array, "one"); JsonArrayAppendString(array, "two"); Writer *writer = StringWriter(); JsonWriteCompact(writer, array); char *output = StringWriterClose(writer); assert_string_equal("[\"one\",\"two\"]", output); JsonDestroy(array); free(output); }
static void test_show_array_object(void **state) { JsonElement *array = JsonArrayCreate(10); JsonElement *object = JsonObjectCreate(10); JsonObjectAppendString(object, "first", "one"); JsonArrayAppendObject(array, object); Writer *writer = StringWriter(); JsonElementPrint(writer, array, 0); assert_string_equal(ARRAY_OBJECT, StringWriterData(writer)); JsonElementDestroy(array); }
static void test_object_get_array(void) { JsonElement *arr = JsonArrayCreate(10); JsonArrayAppendString(arr, "one"); JsonArrayAppendString(arr, "two"); JsonElement *obj = JsonObjectCreate(10); JsonObjectAppendArray(obj, "array", arr); JsonElement *arr2 = JsonObjectGetAsArray(obj, "array"); assert_string_equal(JsonArrayGetAsString(arr2, 1), "two"); JsonDestroy(obj); }
static void test_show_array_numeric(void) { JsonElement *array = JsonArrayCreate(10); JsonArrayAppendInteger(array, 123); JsonArrayAppendReal(array, 123.1234); Writer *writer = StringWriter(); JsonWrite(writer, array, 0); char *output = StringWriterClose(writer); assert_string_equal(ARRAY_NUMERIC, output); JsonDestroy(array); free(output); }
static void test_show_array_boolean(void) { JsonElement *array = JsonArrayCreate(10); JsonArrayAppendBool(array, true); JsonArrayAppendBool(array, false); Writer *writer = StringWriter(); JsonWrite(writer, array, 0); char *output = StringWriterClose(writer); assert_string_equal("[\n" " true,\n" " false\n" "]", output); JsonDestroy(array); free(output); }
static void test_array_iterator(void **state) { JsonElement *arr = JsonArrayCreate(10); JsonArrayAppendString(arr, "first"); JsonArrayAppendString(arr, "second"); { JsonIterator it = JsonIteratorInit(arr); assert_string_equal("first", JsonPrimitiveGetAsString(JsonIteratorNextValue(&it))); assert_string_equal("second", JsonPrimitiveGetAsString(JsonIteratorNextValue(&it))); assert_false(JsonIteratorNextValue(&it)); } JsonElementDestroy(arr); }
static void test_show_array(void) { JsonElement *array = JsonArrayCreate(10); JsonArrayAppendString(array, "one"); JsonArrayAppendString(array, "two"); Writer *writer = StringWriter(); JsonWrite(writer, array, 0); char *output = StringWriterClose(writer); assert_string_equal(ARRAY_SIMPLE, output); JsonDestroy(array); free(output); }
static void test_show_object_array(void **state) { JsonElement *json = JsonObjectCreate(10); JsonElement *array = JsonArrayCreate(10); JsonArrayAppendString(array, "one"); JsonArrayAppendString(array, "two"); JsonObjectAppendArray(json, "first", array); Writer *writer = StringWriter(); JsonElementPrint(writer, json, 0); assert_string_equal(OBJECT_ARRAY, StringWriterData(writer)); JsonElementDestroy(json); }
static void test_show_array_object(void) { JsonElement *array = JsonArrayCreate(10); JsonElement *object = JsonObjectCreate(10); JsonObjectAppendString(object, "first", "one"); JsonArrayAppendObject(array, object); Writer *writer = StringWriter(); JsonWrite(writer, array, 0); char *output = StringWriterClose(writer); assert_string_equal(ARRAY_OBJECT, output); JsonDestroy(array); free(output); }
static void test_show_object_array(void) { JsonElement *json = JsonObjectCreate(10); JsonElement *array = JsonArrayCreate(10); JsonArrayAppendString(array, "one"); JsonArrayAppendString(array, "two"); JsonObjectAppendArray(json, "first", array); Writer *writer = StringWriter(); JsonWrite(writer, json, 0); char *output = StringWriterClose(writer); assert_string_equal(OBJECT_ARRAY, output); JsonDestroy(json); free(output); }