void Admintest::test_SetOperation_obj_IG() { Account_SetOperation_called = 0; long cid = m_id_counter++; Entity * c = new Entity(compose("%1", cid), cid); m_account->m_charactersDict.insert(std::make_pair(cid, c)); Atlas::Objects::Operation::Set op; OpVector res; Anonymous arg; arg->setObjtype("obj"); arg->setId(c->getId()); op->setArgs1(arg); m_account->SetOperation(op, res); ASSERT_EQUAL(Account_SetOperation_called, m_account); // The operation returned would have come from Account::SetOperation // but that is stubbed out ASSERT_EQUAL(res.size(), 0u); delete c; }
void Admintest::test_GetOperation_obj_IG() { long cid = m_id_counter++; std::string cid_str = String::compose("%1", cid); Entity * to = new Entity(cid_str, cid); m_server->m_world.addEntity(to); Atlas::Objects::Operation::Get op; OpVector res; Anonymous arg; arg->setObjtype("obj"); arg->setId(cid_str); op->setArgs1(arg); m_account->GetOperation(op, res); ASSERT_EQUAL(res.size(), 1u); const Operation & reply = res.front(); ASSERT_EQUAL(reply->getClassNo(), Atlas::Objects::Operation::INFO_NO); ASSERT_EQUAL(reply->getArgs().size(), 1u); const Root & reply_arg = reply->getArgs().front(); ASSERT_TRUE(!reply_arg->isDefaultId()); ASSERT_EQUAL(reply_arg->getId(), to->getId()); delete to; }
void Admintest::test_GetOperation_rule_found() { Atlas::Objects::Operation::Get op; OpVector res; Anonymous arg; arg->setObjtype("class"); arg->setId("root"); op->setArgs1(arg); m_account->GetOperation(op, res); ASSERT_EQUAL(res.size(), 1u); const Operation & reply = res.front(); ASSERT_EQUAL(reply->getClassNo(), Atlas::Objects::Operation::INFO_NO); ASSERT_EQUAL(reply->getArgs().size(), 1u); const Root & reply_arg = reply->getArgs().front(); ASSERT_TRUE(!reply_arg->isDefaultId()); ASSERT_EQUAL(reply_arg->getId(), "root"); }
// check() description with op_definition objtype void PropertyRuleHandlertest::test_check_pass() { Anonymous description; description->setObjtype("type"); description->setParents(std::list<std::string>(1, "foo")); int ret = rh->check(description); assert(ret == 0); }
void PropertyRuleHandlertest::test_install_noparent() { Anonymous description; description->setObjtype("type"); std::string dependent, reason; int ret = rh->install("new_int_type", "int", description, dependent, reason); assert(ret == 0); }
void PropertyRuleHandlertest::test_install_exists() { PropertyManager::instance()->installFactory("existing_int_type", Root(), new PropertyFactory<Property<int>>); Anonymous description; description->setObjtype("type"); std::string dependent, reason; int ret = rh->install("existing_int_type", "int", description, dependent, reason); assert(ret == 0); }
void Admintest::test_SetOperation_no_id() { Atlas::Objects::Operation::Set op; OpVector res; Anonymous arg; arg->setObjtype("obj"); op->setArgs1(arg); m_account->SetOperation(op, res); ASSERT_EQUAL(res.size(), 1u); ASSERT_EQUAL(res.front()->getClassNo(), Atlas::Objects::Operation::ERROR_NO); }
void Admintest::test_GetOperation_unknown() { Atlas::Objects::Operation::Get op; OpVector res; Anonymous arg; arg->setObjtype("unknownobjtype"); arg->setId("1741"); op->setArgs1(arg); m_account->GetOperation(op, res); ASSERT_EQUAL(res.size(), 1u); ASSERT_EQUAL(res.front()->getClassNo(), Atlas::Objects::Operation::ERROR_NO); }
void Admintest::test_GetOperation_obj_unconnected() { m_account->m_connection = 0; Atlas::Objects::Operation::Get op; OpVector res; Anonymous arg; arg->setObjtype("obj"); arg->setId("9287"); op->setArgs1(arg); m_account->GetOperation(op, res); ASSERT_EQUAL(res.size(), 0u); }
void Admintest::test_SetOperation_unknown() { Atlas::Objects::Operation::Set op; OpVector res; Anonymous arg; arg->setObjtype("unimportant_unknown_string"); arg->setId("root"); op->setArgs1(arg); m_account->SetOperation(op, res); ASSERT_EQUAL(res.size(), 1u); ASSERT_EQUAL(res.front()->getClassNo(), Atlas::Objects::Operation::ERROR_NO); }
void Admintest::test_SetOperation_rule_unknown() { Ruleset_modifyRule_called = false; Atlas::Objects::Operation::Set op; OpVector res; Anonymous arg; arg->setObjtype("class"); arg->setId("unimportant_unmatched_string"); op->setArgs1(arg); m_account->SetOperation(op, res); ASSERT_EQUAL(res.size(), 1u); ASSERT_EQUAL(res.front()->getClassNo(), Atlas::Objects::Operation::ERROR_NO); ASSERT_TRUE(!Ruleset_modifyRule_called); }
void Admintest::test_SetOperation_rule_fail() { Ruleset_modifyRule_called = false; Ruleset_modifyRule_retval = -1; Atlas::Objects::Operation::Set op; OpVector res; Anonymous arg; arg->setObjtype("class"); arg->setId("root"); op->setArgs1(arg); m_account->SetOperation(op, res); ASSERT_EQUAL(res.size(), 1u); ASSERT_EQUAL(res.front()->getClassNo(), Atlas::Objects::Operation::ERROR_NO); ASSERT_TRUE(Ruleset_modifyRule_called); }
void Admintest::test_SetOperation_obj_not_found() { Account_SetOperation_called = 0; long cid = m_id_counter++; Atlas::Objects::Operation::Set op; OpVector res; Anonymous arg; arg->setObjtype("obj"); arg->setId(compose("%1", cid)); op->setArgs1(arg); m_account->SetOperation(op, res); ASSERT_NULL(Account_SetOperation_called); // FIXME No error? Is that right? ASSERT_EQUAL(res.size(), 0u); }
int main() { EntityBuilder::init(); { RuleHandler * rh = new EntityRuleHandler(EntityBuilder::instance()); delete rh; } // check() not a class { RuleHandler * rh = new EntityRuleHandler(EntityBuilder::instance()); Anonymous description; description->setParents(std::list<std::string>(1, "foo")); int ret = rh->check(description); assert(ret == -1); delete rh; } // check() stub says it's a task { RuleHandler * rh = new EntityRuleHandler(EntityBuilder::instance()); stub_isTask_result = true; Anonymous description; description->setObjtype("class"); description->setParents(std::list<std::string>(1, "foo")); int ret = rh->check(description); assert(ret == -1); stub_isTask_result = false; delete rh; } // check() stub says it's not a task { RuleHandler * rh = new EntityRuleHandler(EntityBuilder::instance()); Anonymous description; description->setObjtype("class"); description->setParents(std::list<std::string>(1, "foo")); int ret = rh->check(description); assert(ret == 0); delete rh; } { RuleHandler * rh = new EntityRuleHandler(EntityBuilder::instance()); Anonymous description; description->setId("class_name"); std::string dependent, reason; int ret = rh->install("class_name", "parent_name", description, dependent, reason); assert(ret == 1); assert(dependent == "parent_name"); delete rh; } // Install a rule with addChild rigged to give a correct result { RuleHandler * rh = new EntityRuleHandler(EntityBuilder::instance()); Anonymous description; description->setId("class_name"); std::string dependent, reason; stub_addChild_result = (TypeNode *) malloc(sizeof(TypeNode)); int ret = rh->install("class_name", "parent_name", description, dependent, reason); assert(ret == 1); assert(dependent == "parent_name"); free(stub_addChild_result); stub_addChild_result = 0; delete rh; } { RuleHandler * rh = new EntityRuleHandler(EntityBuilder::instance()); Anonymous description; int ret = rh->update("", description); // FIXME Currently does nothing assert(ret == -1); delete rh; } }
int main() { EntityBuilder eb; { RuleHandler * rh = new EntityRuleHandler(&eb); delete rh; } // check() not a class { RuleHandler * rh = new EntityRuleHandler(&eb); Anonymous description; description->setParent("foo"); int ret = rh->check(description); assert(ret == -1); delete rh; } // check() stub says it's not a task { RuleHandler * rh = new EntityRuleHandler(&eb); Anonymous description; description->setObjtype("class"); description->setParent("foo"); int ret = rh->check(description); assert(ret == 0); delete rh; } { RuleHandler * rh = new EntityRuleHandler(&eb); std::map<const TypeNode*, TypeNode::PropertiesUpdate> changes; Anonymous description; description->setId("class_name"); std::string dependent, reason; int ret = rh->install("class_name", "parent_name", description, dependent, reason, changes); assert(ret == 1); assert(dependent == "parent_name"); delete rh; } // Install a rule with addChild rigged to give a correct result { RuleHandler * rh = new EntityRuleHandler(&eb); std::map<const TypeNode*, TypeNode::PropertiesUpdate> changes; Anonymous description; description->setId("class_name"); std::string dependent, reason; stub_addChild_result = (TypeNode *) malloc(sizeof(TypeNode)); int ret = rh->install("class_name", "parent_name", description, dependent, reason, changes); assert(ret == 1); assert(dependent == "parent_name"); free(stub_addChild_result); stub_addChild_result = 0; delete rh; } { RuleHandler * rh = new EntityRuleHandler(&eb); std::map<const TypeNode*, TypeNode::PropertiesUpdate> changes; Anonymous description; int ret = rh->update("", description, changes); // FIXME Currently does nothing assert(ret == -1); delete rh; } }
void Interactive::exec(const std::string & cmd, const std::string & arg) { bool reply_expected = true; reply_flag = false; error_flag = false; boost::shared_ptr<ObjectContext> command_context = m_currentContext.lock(); if (!command_context) { std::cout << "ERROR: Context free" << std::endl << std::flush; return; } if (cmd == "stat") { Get g; send(g); } else if (cmd == "install") { size_t space = arg.find(' '); if (space == std::string::npos || space >= (arg.size() - 1)) { std::cout << "usage: install <type id> <parent id>" << std::endl << std::flush; } else { Create c; c->setFrom(m_accountId); Anonymous ent; ent->setId(std::string(arg, 0, space)); ent->setObjtype("class"); ent->setParents(std::list<std::string>(1, std::string(arg, space + 1))); c->setArgs1(ent); send(c); } reply_expected = false; } else if (cmd == "look") { Look l; if (!arg.empty()) { Anonymous cmap; cmap->setId(arg); l->setArgs1(cmap); } l->setSerialno(newSerialNo()); command_context->setFromContext(l); send(l); reply_expected = false; } else if (cmd == "logout") { Logout l; l->setFrom(m_accountId); if (!arg.empty()) { Anonymous lmap; lmap->setId(arg); l->setArgs1(lmap); reply_expected = false; } send(l); } else if (cmd == "say") { Talk t; Anonymous ent; ent->setAttr("say", arg); t->setArgs1(ent); t->setFrom(m_accountId); send(t); } else if (cmd == "help" || cmd == "?") { reply_expected = false; help(); } else if (cmd == "query") { Get g; if (!arg.empty()) { Anonymous cmap; if (::isdigit(arg[0])) { cmap->setObjtype("obj"); } else { cmap->setObjtype("meta"); } cmap->setId(arg); g->setArgs1(cmap); } g->setFrom(m_accountId); send(g); } else if (cmd == "reload") { if (arg.empty()) { reply_expected = false; std::cout << "reload: Argument required" << std::endl << std::flush; } else { Set s; Anonymous tmap; tmap->setObjtype("class"); tmap->setId(arg); s->setArgs1(tmap); s->setFrom(m_accountId); send(s); } } else if (cmd == "get") { Get g; if (!arg.empty()) { Anonymous cmap; if (::isdigit(arg[0])) { cmap->setObjtype("obj"); } else { cmap->setObjtype("meta"); } cmap->setId(arg); g->setArgs1(cmap); } g->setFrom(m_accountId); send(g); } else if (cmd == "monitor") { ClientTask * task = new OperationMonitor; if (runTask(task, arg) == 0) { Monitor m; m->setArgs1(Anonymous()); m->setFrom(m_accountId); send(m); } reply_expected = false; } else if (cmd == "unmonitor") { OperationMonitor * om = dynamic_cast<OperationMonitor *>(m_currentTask); if (om != 0) { Monitor m; m->setFrom(m_accountId); send(m); reply_expected = false; SystemTime now; now.update(); time_t monitor_time = now.seconds() - om->startTime(); std::cout << om->count() << " operations monitored in " << monitor_time << " seconds = " << om->count() / monitor_time << " operations per second" << std::endl << std::flush; endTask(); } } else if (cmd == "connect") { std::vector<std::string> args; tokenize(arg, args); if (args.size() != 2) { std::cout << "usage: connect <hostname> <port>" << std::endl << std::flush; reply_expected = false; } else { Anonymous cmap; cmap->setAttr("hostname", args[0]); cmap->setAttr("port", strtol(args[1].c_str(), 0, 10)); Connect m; m->setArgs1(cmap); // No serialno yet // FIXME add serialno once Juncture context can handle this command_context->setFromContext(m); send(m); } } else if (cmd == "add_agent") { std::string agent_type("creator"); if (!arg.empty()) { agent_type = arg; } Create c; Anonymous cmap; cmap->setParents(std::list<std::string>(1, agent_type)); cmap->setName("cycmd agent"); cmap->setObjtype("obj"); c->setArgs1(cmap); c->setSerialno(newSerialNo()); command_context->setFromContext(c); send(c); } else if (cmd == "delete") { if (arg.empty()) { std::cout << "Please specify the entity to delete" << std::endl << std::flush; reply_expected = false; } else { Delete del; Anonymous del_arg; del_arg->setId(arg); del->setArgs1(del_arg); command_context->setFromContext(del); send(del); reply_expected = false; } } else if (cmd == "find_by_name") { if (arg.empty()) { std::cout << "Please specify the name to search for" << std::endl << std::flush; reply_expected = false; } else { Look l; Anonymous lmap; lmap->setName(arg); l->setArgs1(lmap); l->setSerialno(newSerialNo()); command_context->setFromContext(l); send(l); reply_expected = false; } } else if (cmd == "find_by_type") { if (arg.empty()) { std::cout << "Please specify the type to search for" << std::endl << std::flush; reply_expected = false; } else { Look l; Anonymous lmap; lmap->setParents(std::list<std::string>(1, arg)); l->setArgs1(lmap); l->setSerialno(newSerialNo()); command_context->setFromContext(l); send(l); reply_expected = false; } } else if (cmd == "flush") { if (arg.empty()) { // FIXME usage std::cout << "Please specify the type to flush" << std::endl << std::flush; reply_expected = false; } else { ClientTask * task = new Flusher(command_context); runTask(task, arg); reply_expected = false; } } else if (cmd == "cancel") { if (endTask() != 0) { std::cout << "No task currently running" << std::endl << std::flush; } } else if (cmd == "dump") { if (command_context->repr() != "avatar") { std::cout << "You must have an agent in the world in order to dump the world." << std::endl << std::flush; } else { //Extract the avatar id by "misusing" the setFromContext method Operation op; command_context->setFromContext(op); ClientTask * task = new EntityExporter(m_accountId, op->getFrom()); runTask(task, "world.xml"); reply_expected = false; } } else if (cmd == "restore") { if (command_context->repr() != "avatar") { std::cout << "You must have an agent in the world in order to dump the world." << std::endl << std::flush; } else { //Extract the avatar id by "misusing" the setFromContext method Operation op; command_context->setFromContext(op); ClientTask * task = new EntityImporter(m_accountId, op->getFrom()); runTask(task, "world.xml"); reply_expected = false; } } else if (cmd == "create") { std::vector<std::string> args; tokenize(arg, args); if (args.size() < 1) { std::cout << "usage: create <type> <params> ... " << std::endl << std::flush; } else { Anonymous cmap; cmap->setParents(std::list<std::string>(1, args[0])); cmap->setObjtype("obj"); Create c; c->setArgs1(cmap); c->setSerialno(newSerialNo()); command_context->setFromContext(c); send(c); } reply_expected = false; } else if (cmd == "login") { std::vector<std::string> args; tokenize(arg, args); if (args.size() != 2) { std::cout << "usage: login <username> <password>" << std::endl << std::flush; reply_expected = false; } else { Anonymous cmap; cmap->setAttr("username", args[0]); cmap->setAttr("password", args[1]); Login m; m->setArgs1(cmap); m->setSerialno(newSerialNo()); command_context->setFromContext(m); send(m); } } else { reply_expected = false; std::cout << cmd << ": Command not known" << std::endl << std::flush; } if (!reply_expected) { updatePrompt(); return; } // Wait for reply time_t wait_start_time = time(NULL); while (!reply_flag) { if (time(NULL) - wait_start_time > 5) { std::cout << cmd << ": No reply from server" << std::endl << std::flush; return; } if (select(false) != 0) { return; } } }