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1413 | // Copyright (C) 2018-2024 Internet Systems Consortium, Inc. ("ISC")
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include <config.h>
#include <asiolink/interval_timer.h>
#include <asiolink/io_service.h>
#include <cc/command_interpreter.h>
#include <config/command_mgr.h>
#include <config/timeouts.h>
#include <config/unix_command_mgr.h>
#include <testutils/io_utils.h>
#include <testutils/unix_control_client.h>
#include <d2/d2_controller.h>
#include <d2/d2_process.h>
#include <d2/parser_context.h>
#include <gtest/gtest.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <testutils/sandbox.h>
#include <boost/pointer_cast.hpp><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <fstream><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <iostream><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <sstream><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <thread><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <unistd.h><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
using namespace std;
using namespace isc;
using namespace isc::asiolink;
using namespace isc::config;
using namespace isc::d2;
using namespace isc::data;
using namespace isc::dhcp::test;
using namespace isc::process;
using namespace boost::asio;
namespace ph = std::placeholders;
namespace isc {
namespace d2 {
class NakedD2Controller;
typedef boost::shared_ptr<NakedD2Controller> NakedD2ControllerPtr;
class NakedD2Controller : public D2Controller {
// "Naked" D2 controller, exposes internal methods.
public:
static DControllerBasePtr& instance() {
static DControllerBasePtr controller_ptr;
if (!controller_ptr) {
controller_ptr.reset(new NakedD2Controller());
}
return (controller_ptr);
}
virtual ~NakedD2Controller() {
deregisterCommands();
}
using DControllerBase::getIOService;
using DControllerBase::initProcess;
D2ProcessPtr getProcess() {
return (boost::dynamic_pointer_cast<D2Process>(DControllerBase::getProcess()));
}
private:
NakedD2Controller() { }
};
} // namespace isc::d2
} // namespace isc
namespace {
/// @brief Simple RAII class which stops IO service upon destruction
/// of the object.
class IOServiceWork {
public:
/// @brief Constructor.
///
/// @param io_service Pointer to the IO service to be stopped.
explicit IOServiceWork(const IOServicePtr& io_service)
: io_service_(io_service) {
}
/// @brief Destructor.
///
/// Stops IO service.
~IOServiceWork() {
io_service_->stop();
}
private:
/// @brief Pointer to the IO service to be stopped upon destruction.
IOServicePtr io_service_;
};
/// @brief Fixture class intended for testing control channel in D2.
class CtrlChannelD2Test : public ::testing::Test {
public:
isc::test::Sandbox sandbox;
/// @brief Path to the UNIX socket being used to communicate with the server.
string socket_path_;
/// @brief Reference to the base controller object.
DControllerBasePtr& server_;
/// @brief Cast controller object.
NakedD2Controller* d2Controller() {
return (dynamic_cast<NakedD2Controller*>(server_.get()));
}
/// @brief Configuration file.
static const char* CFG_TEST_FILE;
/// @brief Default constructor.
///
/// Sets socket path to its default value.
CtrlChannelD2Test()
: server_(NakedD2Controller::instance()) {
const char* env = getenv("KEA_SOCKET_TEST_DIR");
if (env) {
socket_path_ = string(env) + "/d2.sock";
} else {
socket_path_ = sandbox.join("d2.sock");
}
::remove(socket_path_.c_str());
}
/// @brief Destructor.
~CtrlChannelD2Test() {
// Deregister & co.
server_.reset();
// Remove files.
::remove(CFG_TEST_FILE);
::remove(socket_path_.c_str());
// Reset command manager.
CommandMgr::instance().deregisterAll();
UnixCommandMgr::instance().setConnectionTimeout(TIMEOUT_DHCP_SERVER_RECEIVE_COMMAND);
}
/// @brief Returns pointer to the server's IO service.
///
/// @return Pointer to the server's IO service or null pointer if the
/// server hasn't been created.
IOServicePtr getIOService() {
return (server_ ? d2Controller()->getIOService() : IOServicePtr());
}
/// @brief Runs parser in DHCPDDNS mode
///
/// @param config input configuration
/// @param verbose display errors
/// @return element pointer representing the configuration
ElementPtr parseDHCPDDNS(const string& config, bool verbose = false) {
try {
D2ParserContext ctx;
return (ctx.parseString(config,
D2ParserContext::PARSER_SUB_DHCPDDNS));
} catch (const std::exception& ex) {
if (verbose) {
cout << "EXCEPTION: " << ex.what() << endl;
}
throw;
}
}
/// @brief Create a server with a command channel.
void createUnixChannelServer() {
::remove(socket_path_.c_str());
// Just a simple config. The important part here is the socket
// location information.
string header =
"{"
" \"ip-address\": \"192.168.77.1\","
" \"port\": 777,"
" \"control-socket\": {"
" \"socket-type\": \"unix\","
" \"socket-name\": \"";
string footer =
"\""
" },"
" \"tsig-keys\": [],"
" \"forward-ddns\" : {},"
" \"reverse-ddns\" : {}"
"}";
// Fill in the socket-name value with socket_path_ to make
// the actual configuration text.
string config_txt = header + socket_path_ + footer;
ASSERT_TRUE(server_);
ConstElementPtr config;
ASSERT_NO_THROW(config = parseDHCPDDNS(config_txt, true));
ASSERT_NO_THROW(d2Controller()->initProcess());
D2ProcessPtr proc = d2Controller()->getProcess();
ASSERT_TRUE(proc);
ConstElementPtr answer = proc->configure(config, false);
ASSERT_TRUE(answer);
ASSERT_NO_THROW(d2Controller()->registerCommands());
int status = 0;
ConstElementPtr txt = parseAnswer(status, answer);
// This should succeed. If not, print the error message.
ASSERT_EQ(0, status) << txt->str();
// Now check that the socket was indeed open.
ASSERT_GT(UnixCommandMgr::instance().getControlSocketFD(), -1);
}
/// @brief Conducts a command/response exchange via UnixCommandSocket.
///
/// This method connects to the given server over the given socket path.
/// If successful, it then sends the given command and retrieves the
/// server's response. Note that it polls the server's I/O service
/// where needed to cause the server to process IO events on
/// the control channel sockets.
///
/// @param command the command text to execute in JSON form
/// @param response variable into which the received response should be
/// placed.
void sendUnixCommand(const string& command, string& response) {
response = "";
boost::scoped_ptr<UnixControlClient> client;
client.reset(new UnixControlClient());
ASSERT_TRUE(client);
// Connect to the server. This is expected to trigger server's acceptor
// handler when IOService::poll() is run.
ASSERT_TRUE(client->connectToServer(socket_path_));
ASSERT_NO_THROW(getIOService()->poll());
// Send the command. This will trigger server's handler which receives
// data over the unix domain socket. The server will start sending
// response to the client.
ASSERT_TRUE(client->sendCommand(command));
ASSERT_NO_THROW(getIOService()->poll());
// Read the response generated by the server. Note that getResponse
// only fails if there an IO error or no response data was present.
// It is not based on the response content.
ASSERT_TRUE(client->getResponse(response));
// Now disconnect and process the close event.
client->disconnectFromServer();
ASSERT_NO_THROW(getIOService()->poll());
}
/// @brief Checks response for list-commands.
///
/// This method checks if the list-commands response is generally sane
/// and whether specified command is mentioned in the response.
///
/// @param rsp response sent back by the server.
/// @param command command expected to be on the list.
void checkListCommands(const ConstElementPtr& rsp, const string command) {
ConstElementPtr params;
int status_code = -1;
EXPECT_NO_THROW(params = parseAnswer(status_code, rsp));
EXPECT_EQ(CONTROL_RESULT_SUCCESS, status_code);
ASSERT_TRUE(params);
ASSERT_EQ(Element::list, params->getType());
int cnt = 0;
for (size_t i = 0; i < params->size(); ++i) {
string tmp = params->get(i)->stringValue();
if (tmp == command) {
// Command found, but that's not enough.
// Need to continue working through the list to see
// if there are no duplicates.
cnt++;
}
}
// Exactly one command on the list is expected.
EXPECT_EQ(1, cnt) << "Command " << command << " not found";
}
/// @brief Check if the answer for config-write command is correct.
///
/// @param response_txt response in text form (as read from
/// the control socket).
/// @param exp_status expected status (0 success, 1 failure).
/// @param exp_txt for success cases this defines the expected filename,
/// for failure cases this defines the expected error message.
void checkConfigWrite(const string& response_txt, int exp_status,
const string& exp_txt = "") {
ConstElementPtr rsp;
EXPECT_NO_THROW(rsp = Element::fromJSON(response_txt));
ASSERT_TRUE(rsp);
int status;
ConstElementPtr params = parseAnswer(status, rsp);
EXPECT_EQ(exp_status, status);
if (exp_status == CONTROL_RESULT_SUCCESS) {
// Let's check couple things...
// The parameters must include filename.
ASSERT_TRUE(params);
ASSERT_TRUE(params->get("filename"));
ASSERT_EQ(Element::string, params->get("filename")->getType());
EXPECT_EQ(exp_txt, params->get("filename")->stringValue());
// The parameters must include size. And the size
// must indicate some content.
ASSERT_TRUE(params->get("size"));
ASSERT_EQ(Element::integer, params->get("size")->getType());
int64_t size = params->get("size")->intValue();
EXPECT_LE(1, size);
// Now check if the file is really there and suitable for
// opening.
ifstream f(exp_txt, ios::binary | ios::ate);
ASSERT_TRUE(f.good());
// Now check that it is the correct size as reported.
EXPECT_EQ(size, static_cast<int64_t>(f.tellg()));
// Finally, check that it's really a JSON.
ElementPtr from_file = Element::fromJSONFile(exp_txt);
ASSERT_TRUE(from_file);
} else if (exp_status == CONTROL_RESULT_ERROR) {
// Let's check if the reason for failure was given.
ConstElementPtr text = rsp->get("text");
ASSERT_TRUE(text);
ASSERT_EQ(Element::string, text->getType());
EXPECT_EQ(exp_txt, text->stringValue());
} else {
ADD_FAILURE() << "Invalid expected status: " << exp_status;
}
}
/// @brief Handler for long command.
///
/// It checks whether the received command is equal to the one specified
/// as an argument.
///
/// @param expected_command String representing an expected command.
/// @param command_name Command name received by the handler.
/// @param arguments Command arguments received by the handler.
///
/// @returns Success answer.
static ConstElementPtr
longCommandHandler(const string& expected_command,
const string& command_name,
const ConstElementPtr& arguments) {
// The handler is called with a command name and the structure holding
// command arguments. We have to rebuild the command from those
// two arguments so as it can be compared against expected_command.
ElementPtr entire_command = Element::createMap();
entire_command->set("command", Element::create(command_name));
entire_command->set("arguments", (arguments));
// The rebuilt command will have a different order of parameters so
// let's parse expected_command back to JSON to guarantee that
// both structures are built using the same order.
EXPECT_EQ(Element::fromJSON(expected_command)->str(),
entire_command->str());
return (createAnswer(CONTROL_RESULT_SUCCESS, "long command received ok"));
}
/// @brief Command handler which generates long response.
///
/// This handler generates a large response (over 400kB). It includes
/// a list of randomly generated strings to make sure that the test
/// can catch out of order delivery.
static ConstElementPtr
longResponseHandler(const string&, const ConstElementPtr&) {
ElementPtr arguments = Element::createList();
for (unsigned i = 0; i < 80000; ++i) {
std::ostringstream s;
s << std::setw(5) << i;
arguments->add(Element::create(s.str()));
}
return (createAnswer(CONTROL_RESULT_SUCCESS, arguments));
}
};
const char* CtrlChannelD2Test::CFG_TEST_FILE = "d2-test-config.json";
// Test bad syntax rejected by the parser.
TEST_F(CtrlChannelD2Test, parser) {
// no empty map.
string bad1 =
"{"
" \"ip-address\": \"192.168.77.1\","
" \"port\": 777,"
" \"control-socket\": { },"
" \"tsig-keys\": [],"
" \"forward-ddns\" : {},"
" \"reverse-ddns\" : {}"
"}";
ASSERT_THROW(parseDHCPDDNS(bad1), D2ParseError);
// unknown keyword.
string bad2 =
"{"
" \"ip-address\": \"192.168.77.1\","
" \"port\": 777,"
" \"control-socket\": {"
" \"socket-type\": \"unix\","
" \"socket-name\": \"/tmp/d2.sock\","
" \"bogus\": \"unknown...\""
" },"
" \"tsig-keys\": [],"
" \"forward-ddns\" : {},"
" \"reverse-ddns\" : {}"
"}";
ASSERT_THROW(parseDHCPDDNS(bad2), D2ParseError);
}
// Test bad syntax rejected by the process.
TEST_F(CtrlChannelD2Test, configure) {
ASSERT_TRUE(server_);
ASSERT_NO_THROW(d2Controller()->initProcess());
D2ProcessPtr proc = d2Controller()->getProcess();
ASSERT_TRUE(proc);
// no type.
string bad1 =
"{"
" \"ip-address\": \"192.168.77.1\","
" \"port\": 777,"
" \"control-socket\": {"
" \"socket-name\": \"/tmp/d2.sock\""
" },"
" \"tsig-keys\": [],"
" \"forward-ddns\" : {},"
" \"reverse-ddns\" : {}"
"}";
ConstElementPtr config;
ASSERT_NO_THROW(config = parseDHCPDDNS(bad1, true));
ConstElementPtr answer = proc->configure(config, false);
ASSERT_TRUE(answer);
int status = 0;
ConstElementPtr txt = parseAnswer(status, answer);
EXPECT_EQ(1, status);
ASSERT_TRUE(txt);
ASSERT_EQ(Element::string, txt->getType());
EXPECT_EQ("'socket-type' parameter is mandatory in control-sockets items",
txt->stringValue());
EXPECT_EQ(-1, UnixCommandMgr::instance().getControlSocketFD());
// no name.
string bad3 =
"{"
" \"ip-address\": \"192.168.77.1\","
" \"port\": 777,"
" \"control-socket\": {"
" \"socket-type\": \"unix\""
" },"
" \"tsig-keys\": [],"
" \"forward-ddns\" : {},"
" \"reverse-ddns\" : {}"
"}";
ASSERT_NO_THROW(config = parseDHCPDDNS(bad3, true));
answer = proc->configure(config, false);
ASSERT_TRUE(answer);
status = 0;
txt = parseAnswer(status, answer);
EXPECT_EQ(1, status);
ASSERT_TRUE(txt);
ASSERT_EQ(Element::string, txt->getType());
EXPECT_EQ("Mandatory 'socket-name' parameter missing",
txt->stringValue());
EXPECT_EQ(-1, UnixCommandMgr::instance().getControlSocketFD());
}
// This test checks which commands are registered by the D2 server.
TEST_F(CtrlChannelD2Test, commandsRegistration) {
ConstElementPtr list_cmds = createCommand("list-commands");
ConstElementPtr answer;
// By default the list should be empty (except the standard list-commands
// supported by the CommandMgr itself).
EXPECT_NO_THROW(answer = CommandMgr::instance().processCommand(list_cmds));
ASSERT_TRUE(answer);
ASSERT_TRUE(answer->get("arguments"));
EXPECT_EQ("[ \"list-commands\" ]", answer->get("arguments")->str());
// Created server should register several additional commands.
EXPECT_NO_THROW(createUnixChannelServer());
EXPECT_NO_THROW(answer = CommandMgr::instance().processCommand(list_cmds));
ASSERT_TRUE(answer);
ASSERT_TRUE(answer->get("arguments"));
string command_list = answer->get("arguments")->str();
EXPECT_TRUE(command_list.find("\"list-commands\"") != string::npos);
EXPECT_TRUE(command_list.find("\"build-report\"") != string::npos);
EXPECT_TRUE(command_list.find("\"config-get\"") != string::npos);
EXPECT_TRUE(command_list.find("\"config-hash-get\"") != string::npos);
EXPECT_TRUE(command_list.find("\"config-reload\"") != string::npos);
EXPECT_TRUE(command_list.find("\"config-set\"") != string::npos);
EXPECT_TRUE(command_list.find("\"config-test\"") != string::npos);
EXPECT_TRUE(command_list.find("\"config-write\"") != string::npos);
EXPECT_TRUE(command_list.find("\"shutdown\"") != string::npos);
EXPECT_TRUE(command_list.find("\"status-get\"") != string::npos);
EXPECT_TRUE(command_list.find("\"statistic-get\"") != string::npos);
EXPECT_TRUE(command_list.find("\"statistic-get-all\"") != string::npos);
EXPECT_TRUE(command_list.find("\"statistic-reset\"") != string::npos);
EXPECT_TRUE(command_list.find("\"statistic-reset-all\"") != string::npos);
EXPECT_TRUE(command_list.find("\"version-get\"") != string::npos);
// Ok, and now delete the server. It should deregister its commands.
server_.reset();
// The list should be (almost) empty again.
EXPECT_NO_THROW(answer = CommandMgr::instance().processCommand(list_cmds));
ASSERT_TRUE(answer);
ASSERT_TRUE(answer->get("arguments"));
EXPECT_EQ("[ \"list-commands\" ]", answer->get("arguments")->str());
}
// Tests that the server properly responds to invalid commands.
TEST_F(CtrlChannelD2Test, invalid) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
sendUnixCommand("{ \"command\": \"bogus\" }", response);
EXPECT_EQ("{ \"result\": 2, \"text\": \"'bogus' command not supported.\" }",
response);
sendUnixCommand("utter nonsense", response);
EXPECT_EQ("{ \"result\": 1, \"text\": \"invalid first character u\" }",
response);
}
// Tests that the server properly responds to shutdown command.
TEST_F(CtrlChannelD2Test, shutdown) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
sendUnixCommand("{ \"command\": \"shutdown\" }", response);
EXPECT_EQ("{ \"result\": 0, \"text\": \"Shutdown initiated, type is: normal\" }",
response);
EXPECT_EQ(EXIT_SUCCESS, server_->getExitValue());
}
// Tests that the server sets exit value supplied as argument
// to shutdown command.
TEST_F(CtrlChannelD2Test, shutdownExitValue) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
sendUnixCommand("{ \"command\": \"shutdown\", "
"\"arguments\": { \"exit-value\": 77 }}",
response);
EXPECT_EQ("{ \"result\": 0, \"text\": \"Shutdown initiated, type is: normal\" }",
response);
EXPECT_EQ(77, server_->getExitValue());
}
// This test verifies that the D2 server handles version-get commands.
TEST_F(CtrlChannelD2Test, getversion) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
// Send the version-get command.
sendUnixCommand("{ \"command\": \"version-get\" }", response);
EXPECT_TRUE(response.find("\"result\": 0") != string::npos);
EXPECT_TRUE(response.find("log4cplus") != string::npos);
EXPECT_FALSE(response.find("GTEST_VERSION") != string::npos);
// Send the build-report command.
sendUnixCommand("{ \"command\": \"build-report\" }", response);
EXPECT_TRUE(response.find("\"result\": 0") != string::npos);
EXPECT_TRUE(response.find("GTEST_VERSION") != string::npos);
}
// Tests that the server properly responds to list-commands command.
TEST_F(CtrlChannelD2Test, listCommands) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
sendUnixCommand("{ \"command\": \"list-commands\" }", response);
ConstElementPtr rsp;
EXPECT_NO_THROW(rsp = Element::fromJSON(response));
// We expect the server to report at least the following commands:
checkListCommands(rsp, "build-report");
checkListCommands(rsp, "config-get");
checkListCommands(rsp, "config-hash-get");
checkListCommands(rsp, "config-reload");
checkListCommands(rsp, "config-set");
checkListCommands(rsp, "config-test");
checkListCommands(rsp, "config-write");
checkListCommands(rsp, "list-commands");
checkListCommands(rsp, "statistic-get");
checkListCommands(rsp, "statistic-get-all");
checkListCommands(rsp, "statistic-reset");
checkListCommands(rsp, "statistic-reset-all");
checkListCommands(rsp, "status-get");
checkListCommands(rsp, "shutdown");
checkListCommands(rsp, "version-get");
}
// This test verifies that the D2 server handles status-get commands.
TEST_F(CtrlChannelD2Test, statusGet) {
EXPECT_NO_THROW(createUnixChannelServer());
std::string response_txt;
// Send the status-get command.
sendUnixCommand("{ \"command\": \"status-get\" }", response_txt);
ConstElementPtr response;
ASSERT_NO_THROW(response = Element::fromJSON(response_txt));
ASSERT_TRUE(response);
ASSERT_EQ(Element::map, response->getType());
EXPECT_EQ(2, response->size());
ConstElementPtr result = response->get("result");
ASSERT_TRUE(result);
ASSERT_EQ(Element::integer, result->getType());
EXPECT_EQ(0, result->intValue());
ConstElementPtr arguments = response->get("arguments");
ASSERT_EQ(Element::map, arguments->getType());
// The returned pid should be the pid of our process.
auto found_pid = arguments->get("pid");
ASSERT_TRUE(found_pid);
EXPECT_EQ(static_cast<int64_t>(getpid()), found_pid->intValue());
// It is hard to check the actual reload time as it is based
// on current time. Let's just make sure it is within a reasonable
// range.
auto found_reload = arguments->get("reload");
ASSERT_TRUE(found_reload);
EXPECT_LE(found_reload->intValue(), 5);
EXPECT_GE(found_reload->intValue(), 0);
/// @todo uptime is not available in this test, because the launch()
/// function is not called. This is not critical to test here,
/// because the same logic is tested for CA and in that case the
/// uptime is tested.
}
// Tests if the server returns its configuration using config-get.
// Note there are separate tests that verify if toElement() called by the
// config-get handler are actually converting the configuration correctly.
TEST_F(CtrlChannelD2Test, configGet) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
sendUnixCommand("{ \"command\": \"config-get\" }", response);
ConstElementPtr rsp;
// The response should be a valid JSON.
EXPECT_NO_THROW(rsp = Element::fromJSON(response));
ASSERT_TRUE(rsp);
int status;
ConstElementPtr cfg = parseAnswer(status, rsp);
EXPECT_EQ(CONTROL_RESULT_SUCCESS, status);
// Ok, now roughly check if the response seems legit.
ASSERT_TRUE(cfg);
ASSERT_EQ(Element::map, cfg->getType());
EXPECT_TRUE(cfg->get("DhcpDdns"));
}
// Tests if the server returns the hash of its configuration using
// config-hash-get.
TEST_F(CtrlChannelD2Test, configHashGet) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
sendUnixCommand("{ \"command\": \"config-hash-get\" }", response);
ConstElementPtr rsp;
// The response should be a valid JSON.
EXPECT_NO_THROW(rsp = Element::fromJSON(response));
ASSERT_TRUE(rsp);
int status;
ConstElementPtr args = parseAnswer(status, rsp);
EXPECT_EQ(CONTROL_RESULT_SUCCESS, status);
// the parseAnswer is trying to be smart with ignoring hash.
// But this time we really want to see the hash, so we'll retrieve
// the arguments manually.
args = rsp->get(CONTROL_ARGUMENTS);
// Ok, now roughly check if the response seems legit.
ASSERT_TRUE(args);
ASSERT_EQ(Element::map, args->getType());
ConstElementPtr hash = args->get("hash");
ASSERT_TRUE(hash);
ASSERT_EQ(Element::string, hash->getType());
// SHA-256 -> 64 hex digits.
EXPECT_EQ(64, hash->stringValue().size());
}
// Verify that the "config-test" command will do what we expect.
TEST_F(CtrlChannelD2Test, configTest) {
// Define strings to permutate the config arguments.
// (Note the line feeds makes errors easy to find)
string config_test_txt = "{ \"command\": \"config-test\" \n";
string args_txt = " \"arguments\": { \n";
string d2_header =
" \"DhcpDdns\": \n";
string d2_cfg_txt =
" { \n"
" \"ip-address\": \"192.168.77.1\", \n"
" \"port\": 777, \n"
" \"forward-ddns\" : {}, \n"
" \"reverse-ddns\" : {}, \n"
" \"tsig-keys\": [ \n";
string key1 =
" {\"name\": \"d2_key.example.com\", \n"
" \"algorithm\": \"hmac-md5\", \n"
" \"secret\": \"LSWXnfkKZjdPJI5QxlpnfQ==\"} \n";
string key2 =
" {\"name\": \"d2_key.billcat.net\", \n"
" \"algorithm\": \"hmac-md5\", \n"
" \"digest-bits\": 120, \n"
" \"secret\": \"LSWXnfkKZjdPJI5QxlpnfQ==\"} \n";
string bad_key =
" {\"BOGUS\": \"d2_key.example.com\", \n"
" \"algorithm\": \"hmac-md5\", \n"
" \"secret\": \"LSWXnfkKZjdPJI5QxlpnfQ==\"} \n";
string key_footer =
" ] \n";
string control_socket_header =
" ,\"control-socket\": { \n"
" \"socket-type\": \"unix\", \n"
" \"socket-name\": \"";
string control_socket_footer =
"\" \n} \n";
ostringstream os;
// Create a valid config with all the parts should parse.
os << d2_cfg_txt
<< key1
<< key_footer
<< control_socket_header
<< socket_path_
<< control_socket_footer
<< "}\n";
ASSERT_TRUE(server_);
ConstElementPtr config;
ASSERT_NO_THROW(config = parseDHCPDDNS(os.str(), true));
ASSERT_NO_THROW(d2Controller()->initProcess());
D2ProcessPtr proc = d2Controller()->getProcess();
ASSERT_TRUE(proc);
ConstElementPtr answer = proc->configure(config, false);
ASSERT_TRUE(answer);
// The config contains random
// socket name (/tmp/kea-<value-changing-each-time>/kea6.sock), so the
// hash will be different each time. As such, we can do simplified checks:
// - verify the "result": 0 is there
// - verify the "text": "Configuration successful." is there
EXPECT_NE(answer->str().find("\"result\": 0"), std::string::npos);
EXPECT_NE(answer->str().find("\"text\": \"Configuration applied successfully.\""), std::string::npos);
ASSERT_NO_THROW(d2Controller()->registerCommands());
// Check that the config was indeed applied.
D2CfgMgrPtr cfg_mgr = proc->getD2CfgMgr();
ASSERT_TRUE(cfg_mgr);
D2CfgContextPtr d2_context = cfg_mgr->getD2CfgContext();
ASSERT_TRUE(d2_context);
TSIGKeyInfoMapPtr keys = d2_context->getKeys();
ASSERT_TRUE(keys);
EXPECT_EQ(1, keys->size());
ASSERT_GT(UnixCommandMgr::instance().getControlSocketFD(), -1);
// Create a config with invalid content that should fail to parse.
os.str("");
os << config_test_txt << ","
<< args_txt
<< d2_header
<< d2_cfg_txt
<< bad_key
<< key_footer
<< control_socket_header
<< socket_path_
<< control_socket_footer
<< "}\n" // close DhcpDdns.
<< "}}";
// Send the config-test command.
string response;
sendUnixCommand(os.str(), response);
// Should fail with a syntax error.
EXPECT_EQ("{ \"result\": 1, \"text\": \"missing parameter 'name' (<wire>:9:14)\" }",
response);
// Check that the config was not lost (fix: reacquire the context).
d2_context = cfg_mgr->getD2CfgContext();
keys = d2_context->getKeys();
ASSERT_TRUE(keys);
EXPECT_EQ(1, keys->size());
// Create a valid config with two keys and no command channel.
os.str("");
os << config_test_txt << ","
<< args_txt
<< d2_header
<< d2_cfg_txt
<< key1
<< ",\n"
<< key2
<< key_footer
<< "}\n" // close DhcpDdns.
<< "}}";
// Verify the control channel socket exists.
ASSERT_TRUE(test::fileExists(socket_path_));
// Send the config-test command.
sendUnixCommand(os.str(), response);
// Verify the control channel socket still exists.
EXPECT_TRUE(test::fileExists(socket_path_));
// Verify the configuration was successful.
EXPECT_EQ("{ \"result\": 0, \"text\": \"Configuration check successful\" }",
response);
// Check that the config was not applied.
d2_context = cfg_mgr->getD2CfgContext();
keys = d2_context->getKeys();
ASSERT_TRUE(keys);
EXPECT_EQ(1, keys->size());
}
// Verify that the "config-set" command will do what we expect.
TEST_F(CtrlChannelD2Test, configSet) {
// Define strings to permutate the config arguments.
// (Note the line feeds makes errors easy to find)
string config_set_txt = "{ \"command\": \"config-set\" \n";
string args_txt = " \"arguments\": { \n";
string d2_header =
" \"DhcpDdns\": \n";
string d2_cfg_txt =
" { \n"
" \"ip-address\": \"192.168.77.1\", \n"
" \"port\": 777, \n"
" \"forward-ddns\" : {}, \n"
" \"reverse-ddns\" : {}, \n"
" \"tsig-keys\": [ \n";
string key1 =
" {\"name\": \"d2_key.example.com\", \n"
" \"algorithm\": \"hmac-md5\", \n"
" \"secret\": \"LSWXnfkKZjdPJI5QxlpnfQ==\"} \n";
string key2 =
" {\"name\": \"d2_key.billcat.net\", \n"
" \"algorithm\": \"hmac-md5\", \n"
" \"digest-bits\": 120, \n"
" \"secret\": \"LSWXnfkKZjdPJI5QxlpnfQ==\"} \n";
string bad_key =
" {\"BOGUS\": \"d2_key.example.com\", \n"
" \"algorithm\": \"hmac-md5\", \n"
" \"secret\": \"LSWXnfkKZjdPJI5QxlpnfQ==\"} \n";
string key_footer =
" ] \n";
string control_socket_header =
" ,\"control-socket\": { \n"
" \"socket-type\": \"unix\", \n"
" \"socket-name\": \"";
string control_socket_footer =
"\" \n} \n";
ostringstream os;
// Create a valid config with all the parts should parse.
os << d2_cfg_txt
<< key1
<< key_footer
<< control_socket_header
<< socket_path_
<< control_socket_footer
<< "}\n";
ASSERT_TRUE(server_);
ConstElementPtr config;
ASSERT_NO_THROW(config = parseDHCPDDNS(os.str(), true));
ASSERT_NO_THROW(d2Controller()->initProcess());
D2ProcessPtr proc = d2Controller()->getProcess();
ASSERT_TRUE(proc);
ConstElementPtr answer = proc->configure(config, false);
ASSERT_TRUE(answer);
// The config contains random
// socket name (/tmp/kea-<value-changing-each-time>/kea6.sock), so the
// hash will be different each time. As such, we can do simplified checks:
// - verify the "result": 0 is there
// - verify the "text": "Configuration successful." is there
EXPECT_NE(answer->str().find("\"result\": 0"), std::string::npos);
EXPECT_NE(answer->str().find("\"text\": \"Configuration applied successfully.\""),
std::string::npos);
ASSERT_NO_THROW(d2Controller()->registerCommands());
// Check that the config was indeed applied.
D2CfgMgrPtr cfg_mgr = proc->getD2CfgMgr();
ASSERT_TRUE(cfg_mgr);
D2CfgContextPtr d2_context = cfg_mgr->getD2CfgContext();
ASSERT_TRUE(d2_context);
TSIGKeyInfoMapPtr keys = d2_context->getKeys();
ASSERT_TRUE(keys);
EXPECT_EQ(1, keys->size());
ASSERT_GT(UnixCommandMgr::instance().getControlSocketFD(), -1);
// Create a config with invalid content that should fail to parse.
os.str("");
os << config_set_txt << ","
<< args_txt
<< d2_header
<< d2_cfg_txt
<< bad_key
<< key_footer
<< control_socket_header
<< socket_path_
<< control_socket_footer
<< "}\n" // close DhcpDdns.
<< "}}";
// Send the config-set command.
string response;
sendUnixCommand(os.str(), response);
// Should fail with a syntax error.
EXPECT_EQ("{ \"result\": 1, \"text\": \"missing parameter 'name' (<wire>:9:14)\" }",
response);
// Check that the config was not lost (fix: reacquire the context).
d2_context = cfg_mgr->getD2CfgContext();
keys = d2_context->getKeys();
ASSERT_TRUE(keys);
EXPECT_EQ(1, keys->size());
// Create a valid config with two keys and no command channel.
os.str("");
os << config_set_txt << ","
<< args_txt
<< d2_header
<< d2_cfg_txt
<< key1
<< ",\n"
<< key2
<< key_footer
<< "}\n" // close DhcpDdns.
<< "}}";
// Verify the control channel socket exists.
ASSERT_TRUE(test::fileExists(socket_path_));
// Send the config-set command.
sendUnixCommand(os.str(), response);
// Verify the control channel socket no longer exists.
EXPECT_FALSE(test::fileExists(socket_path_));
// Verify the configuration was successful.
EXPECT_EQ("{ \"arguments\": { \"hash\": \"5206A1BEC7E3C6ADD5E97C5983861F97739EA05CFEAD823CBBC4"
"524095AAA10A\" }, \"result\": 0, \"text\": \"Configuration applied successfully.\" }",
response);
// Check that the config was applied.
d2_context = cfg_mgr->getD2CfgContext();
keys = d2_context->getKeys();
ASSERT_TRUE(keys);
EXPECT_EQ(2, keys->size());
}
// Tests if config-write can be called without any parameters.
TEST_F(CtrlChannelD2Test, writeConfigNoFilename) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
// This is normally set by the command line -c parameter.
server_->setConfigFile("test1.json");
// If the filename is not explicitly specified, the name used
// in -c command line switch is used.
sendUnixCommand("{ \"command\": \"config-write\" }", response);
checkConfigWrite(response, CONTROL_RESULT_SUCCESS, "test1.json");
::remove("test1.json");
}
// Tests if config-write can be called with a valid filename as parameter.
TEST_F(CtrlChannelD2Test, writeConfigFilename) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
sendUnixCommand("{ \"command\": \"config-write\", "
"\"arguments\": { \"filename\": \"test2.json\" } }",
response);
checkConfigWrite(response, CONTROL_RESULT_SUCCESS, "test2.json");
::remove("test2.json");
}
// Tests if config-reload attempts to reload a file and reports that the
// file is missing.
TEST_F(CtrlChannelD2Test, configReloadMissingFile) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
// This is normally set to whatever value is passed to -c when the server is
// started, but we're not starting it that way, so need to set it by hand.
server_->setConfigFile("does-not-exist.json");
// Tell the server to reload its configuration. It should attempt to load
// does-not-exist.json (and fail, because the file is not there).
sendUnixCommand("{ \"command\": \"config-reload\" }", response);
// Verify the reload was rejected.
string expected = "{ \"result\": 1, \"text\": "
"\"Configuration parsing failed: "
"Unable to open file does-not-exist.json\" }";
EXPECT_EQ(expected, response);
}
// Tests if config-reload attempts to reload a file and reports that the
// file is not a valid JSON.
TEST_F(CtrlChannelD2Test, configReloadBrokenFile) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
// This is normally set to whatever value is passed to -c when the server is
// started, but we're not starting it that way, so need to set it by hand.
server_->setConfigFile("testbad.json");
// Although Kea is smart, its AI routines are not smart enough to handle
// this one... at least not yet.
ofstream f("testbad.json", ios::trunc);
f << "bla bla bla...";
f.close();
// Tell the server to reload its configuration. It should attempt to load
// testbad.json (and fail, because the file is not valid JSON).
sendUnixCommand("{ \"command\": \"config-reload\" }", response);
// Verify the reload was rejected.
string expected = "{ \"result\": 1, \"text\": "
"\"Configuration parsing failed: "
"testbad.json:1.1: Invalid character: b\" }";
EXPECT_EQ(expected, response);
// Remove the file.
::remove("testbad.json");
}
// Tests if config-reload attempts to reload a file and reports that the
// file is loaded correctly.
TEST_F(CtrlChannelD2Test, configReloadFileValid) {
EXPECT_NO_THROW(createUnixChannelServer());
string response;
// This is normally set to whatever value is passed to -c when the server is
// started, but we're not starting it that way, so need to set it by hand.
server_->setConfigFile("testvalid.json");
// Ok, enough fooling around. Let's create a valid config.
ofstream f("testvalid.json", ios::trunc);
f << "{ \"DhcpDdns\": "
<< "{"
<< " \"ip-address\": \"192.168.77.1\" , "
<< " \"port\": 777 , "
<< "\"tsig-keys\": [], "
<< "\"forward-ddns\" : {}, "
<< "\"reverse-ddns\" : {} "
<< "}"
<< " }" << endl;
f.close();
// Tell the server to reload its configuration. It should attempt to load
// testvalid.json (and succeed).
sendUnixCommand("{ \"command\": \"config-reload\" }", response);
// Verify the reload was successful.
string expected = "{ \"arguments\": { \"hash\": \"DC1235F1948D68E06F1425FC28BE326EF01DC4856C3"
"833673B9CC8732409B04D\" }, \"result\": 0, \"text\": "
"\"Configuration applied successfully.\" }";
EXPECT_EQ(expected, response);
// Check that the config was indeed applied.
D2ProcessPtr proc = d2Controller()->getProcess();
ASSERT_TRUE(proc);
D2CfgMgrPtr d2_cfg_mgr = proc->getD2CfgMgr();
ASSERT_TRUE(d2_cfg_mgr);
D2ParamsPtr d2_params = d2_cfg_mgr->getD2Params();
ASSERT_TRUE(d2_params);
EXPECT_EQ("192.168.77.1", d2_params->getIpAddress().toText());
EXPECT_EQ(777, d2_params->getPort());
EXPECT_FALSE(d2_cfg_mgr->forwardUpdatesEnabled());
EXPECT_FALSE(d2_cfg_mgr->reverseUpdatesEnabled());
// Remove the file.
::remove("testvalid.json");
}
/// Verify that concurrent connections over the control channel can be
/// established. (@todo change when response will be sent in multiple chunks)
TEST_F(CtrlChannelD2Test, concurrentConnections) {
EXPECT_NO_THROW(createUnixChannelServer());
boost::scoped_ptr<UnixControlClient> client1(new UnixControlClient());
ASSERT_TRUE(client1);
boost::scoped_ptr<UnixControlClient> client2(new UnixControlClient());
ASSERT_TRUE(client2);
// Client 1 connects.
ASSERT_TRUE(client1->connectToServer(socket_path_));
ASSERT_NO_THROW(getIOService()->poll());
// Client 2 connects.
ASSERT_TRUE(client2->connectToServer(socket_path_));
ASSERT_NO_THROW(getIOService()->poll());
// Send the command while another client is connected.
ASSERT_TRUE(client2->sendCommand("{ \"command\": \"list-commands\" }"));
ASSERT_NO_THROW(getIOService()->poll());
string response;
// The server should respond ok.
ASSERT_TRUE(client2->getResponse(response));
EXPECT_TRUE(response.find("\"result\": 0") != std::string::npos);
// Disconnect the servers.
client1->disconnectFromServer();
client2->disconnectFromServer();
ASSERT_NO_THROW(getIOService()->poll());
}
// This test verifies that the server can receive and process a large command.
TEST_F(CtrlChannelD2Test, longCommand) {
ostringstream command;
// This is the desired size of the command sent to the server (1MB).
// The actual size sent will be slightly greater than that.
const size_t command_size = 1024 * 1000;
while (command.tellp() < command_size) {
// We're sending command 'foo' with arguments being a list of
// strings. If this is the first transmission, send command name
// and open the arguments list. Also insert the first argument
// so as all subsequent arguments can be prefixed with a comma.
if (command.tellp() == 0) {
command << "{ \"command\": \"foo\", \"arguments\": [ \"begin\"";
} else {
// Generate a random number and insert it into the stream as
// 10 digits long string.
ostringstream arg;
arg << setw(10) << std::rand();
// Append the argument in the command.
command << ", \"" << arg.str() << "\"\n";
// If we have hit the limit of the command size, close braces to
// get appropriate JSON.
if (command.tellp() > command_size) {
command << "] }";
}
}
}
ASSERT_NO_THROW(<--- There is an unknown macro here somewhere. Configuration is required. If ASSERT_NO_THROW is a macro then please configure it.
CommandMgr::instance().registerCommand("foo",
std::bind(&CtrlChannelD2Test::longCommandHandler,
command.str(), ph::_1, ph::_2));
);
createUnixChannelServer();
string response;
std::thread th([this, &response, &command]() {
// IO service will be stopped automatically when this object goes
// out of scope and is destroyed. This is useful because we use
// asserts which may break the thread in various exit points.
IOServiceWork work(getIOService());
// Create client which we will use to send command to the server.
boost::scoped_ptr<UnixControlClient> client(new UnixControlClient());
ASSERT_TRUE(client);
// Connect to the server. This will trigger acceptor handler on the
// server side and create a new connection.
ASSERT_TRUE(client->connectToServer(socket_path_));
// Initially the remaining_string holds the entire command and we
// will be erasing the portions that we have sent.
string remaining_data = command.str();
while (!remaining_data.empty()) {
// Send the command in chunks of 1024 bytes.
const size_t l = remaining_data.size() < 1024 ? remaining_data.size() : 1024;
ASSERT_TRUE(client->sendCommand(remaining_data.substr(0, l)));
remaining_data.erase(0, l);
}
// Set timeout to 5 seconds to allow the time for the server to send
// a response.
const unsigned int timeout = 5;
ASSERT_TRUE(client->getResponse(response, timeout));
// We're done. Close the connection to the server.
client->disconnectFromServer();
});
// Run the server until the command has been processed and response
// received.
getIOService()->run();
// Wait for the thread to complete.
th.join();
EXPECT_EQ("{ \"result\": 0, \"text\": \"long command received ok\" }",
response);
}
// This test verifies that the server can send long response to the client.
TEST_F(CtrlChannelD2Test, longResponse) {
// We need to generate large response. The simplest way is to create
// a command and a handler which will generate some static response
// of a desired size
ASSERT_NO_THROW(
CommandMgr::instance().registerCommand("foo",
std::bind(&CtrlChannelD2Test::longResponseHandler, ph::_1, ph::_2));
);
createUnixChannelServer();
// The UnixControlClient doesn't have any means to check that the entire
// response has been received. What we want to do is to generate a
// reference response using our command handler and then compare
// what we have received over the unix domain socket with this reference
// response to figure out when to stop receiving.
string reference_response = longResponseHandler("foo", ConstElementPtr())->str();
// In this stream we're going to collect out partial responses.
ostringstream response;
// The client is synchronous so it is useful to run it in a thread.
std::thread th([this, &response, reference_response]() {
// IO service will be stopped automatically when this object goes
// out of scope and is destroyed. This is useful because we use
// asserts which may break the thread in various exit points.
IOServiceWork work(getIOService());
// Remember the response size so as we know when we should stop
// receiving.
const size_t long_response_size = reference_response.size();
// Create the client and connect it to the server.
boost::scoped_ptr<UnixControlClient> client(new UnixControlClient());
ASSERT_TRUE(client);
ASSERT_TRUE(client->connectToServer(socket_path_));
// Send the stub command.
std::string command = "{ \"command\": \"foo\", \"arguments\": { } }";
ASSERT_TRUE(client->sendCommand(command));
// Keep receiving response data until we have received the full answer.
while (response.tellp() < long_response_size) {
std::string partial;
const unsigned int timeout = 5;
ASSERT_TRUE(client->getResponse(partial, timeout));
response << partial;
}
// We have received the entire response, so close the connection and
// stop the IO service.
client->disconnectFromServer();
});
// Run the server until the entire response has been received.
getIOService()->run();
// Wait for the thread to complete.
th.join();
// Make sure we have received correct response.
EXPECT_EQ(reference_response, response.str());
}
// This test verifies that the server signals timeout if the transmission
// takes too long, after receiving a partial command
TEST_F(CtrlChannelD2Test, connectionTimeoutPartialCommand) {
createUnixChannelServer();
// Set connection timeout to 2s to prevent long waiting time for the
// timeout during this test.
const unsigned short timeout = 2000;
UnixCommandMgr::instance().setConnectionTimeout(timeout);
// Server's response will be assigned to this variable.
string response;
// It is useful to create a thread and run the server and the client
// at the same time and independently.
std::thread th([this, &response]() {
// IO service will be stopped automatically when this object goes
// out of scope and is destroyed. This is useful because we use
// asserts which may break the thread in various exit points.
IOServiceWork work(getIOService());
// Create the client and connect it to the server.
boost::scoped_ptr<UnixControlClient> client(new UnixControlClient());
ASSERT_TRUE(client);
ASSERT_TRUE(client->connectToServer(socket_path_));
// Send partial command. The server will be waiting for the remaining
// part to be sent and will eventually signal a timeout.
string command = "{ \"command\": \"foo\" ";
ASSERT_TRUE(client->sendCommand(command));
// Let's wait up to 15s for the server's response. The response
// should arrive sooner assuming that the timeout mechanism for
// the server is working properly.
const unsigned int timeout = 15;
ASSERT_TRUE(client->getResponse(response, timeout));
// Explicitly close the client's connection.
client->disconnectFromServer();
});
// Run the server until stopped.
getIOService()->run();
// Wait for the thread to return.
th.join();
// Check that the server has signalled a timeout.
EXPECT_EQ("{ \"result\": 1, \"text\": \"Connection over control channel timed out, discarded partial command of 19 bytes\" }" ,
response);
}
// This test verifies that the server signals timeout if the transmission
// takes too long, having received no data from the client.
TEST_F(CtrlChannelD2Test, connectionTimeoutNoData) {
createUnixChannelServer();
// Set connection timeout to 2s to prevent long waiting time for the
// timeout during this test.
const unsigned short timeout = 2000;
UnixCommandMgr::instance().setConnectionTimeout(timeout);
// Server's response will be assigned to this variable.
string response;
// It is useful to create a thread and run the server and the client
// at the same time and independently.
std::thread th([this, &response]() {
// IO service will be stopped automatically when this object goes
// out of scope and is destroyed. This is useful because we use
// asserts which may break the thread in various exit points.
IOServiceWork work(getIOService());
// Create the client and connect it to the server.
boost::scoped_ptr<UnixControlClient> client(new UnixControlClient());
ASSERT_TRUE(client);
ASSERT_TRUE(client->connectToServer(socket_path_));
// Let's wait up to 15s for the server's response. The response
// should arrive sooner assuming that the timeout mechanism for
// the server is working properly.
const unsigned int timeout = 15;
ASSERT_TRUE(client->getResponse(response, timeout));
// Explicitly close the client's connection.
client->disconnectFromServer();
});
// Run the server until stopped.
getIOService()->run();
// Wait for the thread to return.
th.join();
// Check that the server has signalled a timeout.
EXPECT_EQ("{ \"result\": 1, \"text\": \"Connection over control channel timed out\" }",
response);
}
} // End of anonymous namespace
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