/* * * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * */ #include "./pn_test.hpp" #include "catch_extra.hpp" #include #include #include #include #include #include /** * The decref order tests validate that whenever the last pointer to a * child object, e.g. a session or a link, is about to go away, the * parent object takes ownership of that reference if the child object * has not been freed, this avoids reference cycles but allows * navigation from parents to children. **/ #define SETUP_CSL \ pn_connection_t *conn = pn_connection(); \ pn_session_t *ssn = pn_session(conn); \ pn_incref(ssn); \ pn_link_t *lnk = pn_sender(ssn, "sender"); \ pn_incref(lnk); \ \ REQUIRE(pn_refcount(conn) == 2); \ REQUIRE(pn_refcount(ssn) == 2); \ REQUIRE(pn_refcount(lnk) == 1); TEST_CASE("test_decref_order_csl") { SETUP_CSL; pn_decref(conn); REQUIRE(pn_refcount(conn) == 1); // session keeps alive pn_decref(ssn); REQUIRE(pn_refcount(ssn) == 1); // link keeps alive pn_decref(lnk); // all gone now (requires valgrind to validate) } TEST_CASE("test_decref_order_cls") { SETUP_CSL; pn_decref(conn); REQUIRE(pn_refcount(conn) == 1); // session keeps alive pn_decref(lnk); REQUIRE(pn_refcount(lnk) == 1); // session takes over ownership pn_decref(ssn); // all gone now (requires valgrind to validate) } TEST_CASE("test_decref_order_lcs") { SETUP_CSL; pn_decref(lnk); REQUIRE(pn_refcount(lnk) == 1); // session takes over ownership pn_decref(conn); REQUIRE(pn_refcount(conn) == 1); // session keeps alive pn_decref(ssn); // all gone now (requires valgrind to validate) } TEST_CASE("test_decref_order_scl") { SETUP_CSL; pn_decref(ssn); REQUIRE(pn_refcount(ssn) == 1); // link keeps alive pn_decref(conn); REQUIRE(pn_refcount(conn) == 1); // session keeps alive pn_decref(lnk); // all gone now (requires valgrind to validate) } TEST_CASE("test_decref_order_slc") { SETUP_CSL; pn_decref(ssn); REQUIRE(pn_refcount(ssn) == 1); // link keeps alive pn_decref(lnk); REQUIRE(pn_refcount(ssn) == 1); // connection takes over ownership REQUIRE(pn_refcount(lnk) == 1); // session takes over ownership pn_decref(conn); // all gone now (requires valgrind to validate) } TEST_CASE("test_decref_order_lsc") { SETUP_CSL; pn_decref(lnk); REQUIRE(pn_refcount(lnk) == 1); // session takes over ownership REQUIRE(pn_refcount(ssn) == 1); pn_decref(ssn); REQUIRE(pn_refcount(lnk) == 1); REQUIRE(pn_refcount(ssn) == 1); // connection takes over ownership pn_decref(conn); // all gone now (requires valgrind to validate) } /** * The incref order tests verify that once ownership of the last * pointer to a child is taken over by a parent, it is reassigned when * the child is increfed. **/ #define SETUP_INCREF_ORDER \ SETUP_CSL; \ pn_decref(lnk); \ pn_decref(ssn); \ REQUIRE(pn_refcount(lnk) == 1); \ REQUIRE(pn_refcount(ssn) == 1); \ REQUIRE(pn_refcount(conn) == 1); TEST_CASE("test_incref_order_sl") { SETUP_INCREF_ORDER; pn_incref(ssn); REQUIRE(pn_refcount(conn) == 2); REQUIRE(pn_refcount(ssn) == 1); REQUIRE(pn_refcount(lnk) == 1); pn_incref(lnk); REQUIRE(pn_refcount(conn) == 2); REQUIRE(pn_refcount(ssn) == 2); REQUIRE(pn_refcount(lnk) == 1); pn_decref(conn); pn_decref(ssn); pn_decref(lnk); } TEST_CASE("test_incref_order_ls") { SETUP_INCREF_ORDER; pn_incref(lnk); REQUIRE(pn_refcount(conn) == 2); REQUIRE(pn_refcount(ssn) == 1); REQUIRE(pn_refcount(lnk) == 1); pn_incref(ssn); REQUIRE(pn_refcount(conn) == 2); REQUIRE(pn_refcount(ssn) == 2); REQUIRE(pn_refcount(lnk) == 1); pn_decref(conn); pn_decref(ssn); pn_decref(lnk); } static void swap(int array[], int i, int j) { int a = array[i]; int b = array[j]; array[j] = a; array[i] = b; } static void setup(void **objects) { pn_connection_t *conn = pn_connection(); pn_session_t *ssn = pn_session(conn); pn_incref(ssn); pn_link_t *lnk = pn_sender(ssn, "sender"); pn_incref(lnk); pn_delivery_t *dlv = pn_delivery(lnk, pn_dtag("dtag", 4)); pn_incref(dlv); REQUIRE(pn_refcount(conn) == 2); REQUIRE(pn_refcount(ssn) == 2); REQUIRE(pn_refcount(lnk) == 2); REQUIRE(pn_refcount(dlv) == 1); objects[0] = conn; objects[1] = ssn; objects[2] = lnk; objects[3] = dlv; } static bool decreffed(int *indexes, void **objects, int step, void *object) { for (int i = 0; i <= step; i++) { if (object == objects[indexes[i]]) { return true; } } return false; } static bool live_descendent(int *indexes, void **objects, int step, int objidx) { for (int i = objidx + 1; i < 4; i++) { if (!decreffed(indexes, objects, step, objects[i])) { return true; } } return false; } static void assert_refcount(void *object, int expected) { int rc = pn_refcount(object); // printf("pn_refcount(%s) = %d\n", pn_object_reify(object)->name, rc); REQUIRE(rc == expected); } static void test_decref_order(int *indexes, void **objects) { setup(objects); // printf("-----------\n"); for (int i = 0; i < 3; i++) { int idx = indexes[i]; void *obj = objects[idx]; // printf("decreffing %s\n", pn_object_reify(obj)->name); pn_decref(obj); for (int j = 0; j <= i; j++) { // everything we've decreffed already should have a refcount of // 1 because it has been preserved by its parent assert_refcount(objects[indexes[j]], 1); } for (int j = i + 1; j < 4; j++) { // everything we haven't decreffed yet should have a refcount of // 2 unless it has a descendant that has not been decrefed (or // it has no child) in which case it should have a refcount of 1 int idx = indexes[j]; void *obj = objects[idx]; REQUIRE(!decreffed(indexes, objects, i, obj)); if (live_descendent(indexes, objects, i, idx)) { assert_refcount(obj, 2); } else { assert_refcount(obj, 1); } } } void *last = objects[indexes[3]]; // printf("decreffing %s\n", pn_object_reify(last)->name); pn_decref(last); // all should be gone now, need to run with valgrind to check } static void permute(int n, int *indexes, void **objects) { int j; if (n == 1) { test_decref_order(indexes, objects); } else { for (int i = 1; i <= n; i++) { permute(n - 1, indexes, objects); if ((n % 2) == 1) { j = 1; } else { j = i; } swap(indexes, j - 1, n - 1); } } } TEST_CASE("test_decref_permutations") { void *objects[4]; int indexes[4] = {0, 1, 2, 3}; permute(4, indexes, objects); } TEST_CASE("test_transport") { pn_transport_t *transport = pn_transport(); REQUIRE(pn_refcount(transport) == 1); pn_incref(transport); REQUIRE(pn_refcount(transport) == 2); pn_decref(transport); REQUIRE(pn_refcount(transport) == 1); pn_free(transport); } TEST_CASE("test_connection_transport") { pn_connection_t *connection = pn_connection(); REQUIRE(pn_refcount(connection) == 1); pn_transport_t *transport = pn_transport(); REQUIRE(pn_refcount(transport) == 1); pn_transport_bind(transport, connection); REQUIRE(pn_refcount(connection) == 2); pn_decref(transport); REQUIRE(pn_refcount(transport) == 1); // preserved by the bind REQUIRE(pn_refcount(connection) == 1); pn_free(connection); } TEST_CASE("test_transport_connection") { pn_transport_t *transport = pn_transport(); REQUIRE(pn_refcount(transport) == 1); pn_connection_t *connection = pn_connection(); REQUIRE(pn_refcount(connection) == 1); pn_transport_bind(transport, connection); REQUIRE(pn_refcount(connection) == 2); pn_decref(connection); REQUIRE(pn_refcount(connection) == 1); REQUIRE(pn_refcount(transport) == 1); pn_free(transport); } static void drain(pn_collector_t *collector) { while (pn_collector_next(collector)) ; } TEST_CASE("test_collector_connection_transport") { pn_collector_t *collector = pn_collector(); REQUIRE(pn_refcount(collector) == 1); pn_connection_t *connection = pn_connection(); REQUIRE(pn_refcount(connection) == 1); pn_connection_collect(connection, collector); REQUIRE(pn_refcount(collector) == 2); REQUIRE(pn_refcount(connection) == 2); drain(collector); REQUIRE(pn_refcount(connection) == 1); pn_transport_t *transport = pn_transport(); REQUIRE(pn_refcount(transport) == 1); pn_transport_bind(transport, connection); REQUIRE(pn_refcount(transport) == 1); REQUIRE(pn_refcount(connection) == 3); drain(collector); REQUIRE(pn_refcount(connection) == 2); pn_decref(transport); REQUIRE(pn_refcount(transport) == 1); // preserved by the bind REQUIRE(pn_refcount(connection) == 1); pn_free(connection); REQUIRE(pn_refcount(transport) == 1); // events REQUIRE(pn_refcount(connection) == 1); // events pn_collector_free(collector); } TEST_CASE("test_collector_transport_connection") { pn_collector_t *collector = pn_collector(); REQUIRE(pn_refcount(collector) == 1); pn_transport_t *transport = pn_transport(); REQUIRE(pn_refcount(transport) == 1); pn_connection_t *connection = pn_connection(); REQUIRE(pn_refcount(connection) == 1); pn_connection_collect(connection, collector); REQUIRE(pn_refcount(collector) == 2); REQUIRE(pn_refcount(connection) == 2); drain(collector); REQUIRE(pn_refcount(connection) == 1); pn_transport_bind(transport, connection); REQUIRE(pn_refcount(connection) == 3); REQUIRE(pn_refcount(transport) == 1); drain(collector); REQUIRE(pn_refcount(connection) == 2); REQUIRE(pn_refcount(transport) == 1); pn_decref(connection); REQUIRE(pn_refcount(connection) == 1); REQUIRE(pn_refcount(transport) == 1); pn_free(transport); REQUIRE(pn_refcount(connection) == 1); REQUIRE(pn_refcount(transport) == 1); pn_collector_free(collector); }