2 * Copyright (c) 2013 Samsung Electronics Co., Ltd All Rights Reserved
4 * Contact: Bumjin Im <bj.im@samsung.com>
6 * Licensed under the Apache License, Version 2.0 (the "License");
7 * you may not use this file except in compliance with the License.
8 * You may obtain a copy of the License at
10 * http://www.apache.org/licenses/LICENSE-2.0
12 * Unless required by applicable law or agreed to in writing, software
13 * distributed under the License is distributed on an "AS IS" BASIS,
14 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
15 * See the License for the specific language governing permissions and
16 * limitations under the License
20 * @file security_server_measurer_API_speed.cpp
21 * @author Radoslaw Bartosiak (radoslaw.bartosiak@samsung.com)
23 * @brief Log security server API functions average execution times and some aproximation of maximal and minimal execution time.
24 * @details The functions are run at least NUMBER_OF_CALLS times (time is measured at the beginning and at the end, the difference is taken as the execution time).
25 * @details One test case for one function of security-server. Test pass always when there was no connection error (API calls themselves may fail).
26 * @details Measured times are logged using DLP testing framework logging functions. Calls each API function many times to take the average.
27 * @details This file contains TEST_CASEs. Each TEST_CASE consist of one or more RUNs, each RUN consist of one or more function calls.
28 * @details Each test case contains RUNs of one function only. The time is being measured before & after each run.
31 #include <dpl/log/log.h>
32 #include <dpl/singleton.h>
33 #include <dpl/singleton_safe_impl.h>
34 #include <dpl/test/test_runner.h>
35 #include <dpl/test/test_runner_child.h>
36 #include <dpl/test/test_runner_multiprocess.h>
40 #include <security-server.h>
43 #include <sys/smack.h>
44 #include <sys/socket.h>
46 #include <sys/types.h>
51 #include "security_server_mockup.h"
52 #include <summary_collector.h>
53 #include <smack_access.h>
55 IMPLEMENT_SAFE_SINGLETON(DPL::Log::LogSystem);
56 #include <security_server_tests_common.h>
57 #include <tests_common.h>
59 /*Number of calls in a single test*/
60 #define NUMBER_OF_CALLS (5)
61 #define MICROSECS_PER_SEC (1000000)
62 /* number of miliseconds, process will be suspended for multiplications of this quantum */
63 #define QUANTUM (10000)
64 /*Strings used in tests*/
65 /*name of existing user group on test device like "tel_gprs"*/
66 #define EXISTING_GROUP_NAME "telephony_makecall"
67 /*below labels should not be used in the system*/
68 #define M60_OBJECT_LABEL "tc060MeasurerLabel"
69 #define M60_SUBJECT_LABEL "tc060Subject"
70 #define M70_OBJECT_LABEL "tc070MeasurerLabel"
71 #define M70_SUBJECT_LABEL "tc070Subject"
72 #define M160_CUSTOMER_LABEL "my_customer_label"
73 #define M170_OBJECT_LABEL "myObject"
76 void securityClientEnableLogSystem(void) {
77 DPL::Log::LogSystemSingleton::Instance().SetTag("SEC_SRV_API_SPEED");
81 /** Store statistics from a set of function calls
83 struct readwrite_stats
85 timeval current_start_time; /*of last API call*/
86 timeval current_end_time; /*of last API call*/
87 int number_of_calls; /*till now*/
88 double total_duration; /*of all API calls*/
89 double average_duration;
90 double minimal_duration; /*minimum of averages*/
91 double maximal_duration; /*maximum of averages*/
94 /*Auxiliary functions*/
96 /**Sleep for the given time
99 @return 0 on success, -1 on error if process woken earlier
101 int my_nanosecsleep(long nanoseconds) {
103 sleep_spec.tv_sec = 0;
104 sleep_spec.tv_nsec = nanoseconds;
105 return nanosleep(&sleep_spec, NULL);
108 /**Read from pipe descriptor to buffer; retries if less than count bytes were read.
110 @param buf start of buffer
111 @param count number of bytes read
112 @return number of bytes read (count)
114 int my_pipe_read(int fd, void *buf, size_t count) {
116 ssize_t rest = count;
119 RUNNER_ASSERT_MSG_BT(0 < (s = TEMP_FAILURE_RETRY(read(fd, ((char*)buf) + readf, rest))), "Error in read from pipe");
126 /**Write from buffer to a pipe ; retries if less than count bytes were written.
128 @param buf start of buffer
129 @param count number of bytes to write
130 @return number of bytes written (count)
132 int my_pipe_write(int fd, void *buf, size_t count) {
134 ssize_t rest = count;
137 RUNNER_ASSERT_MSG_BT(0 <= (s = TEMP_FAILURE_RETRY(write(fd, ((char*)buf) + writef, rest))), "Error in write to pipe");
145 /** Check whether there was connection error during function call (Security Server API) based on exit code
146 @param result_code the exit code of a function
147 @return -1 if the function result code indicated network error, 0 otherwise
149 int communication_succeeded(int result_code) {
152 case SECURITY_SERVER_API_ERROR_NO_SUCH_SERVICE:
153 case SECURITY_SERVER_API_ERROR_SOCKET:
154 case SECURITY_SERVER_API_ERROR_BAD_REQUEST:
155 case SECURITY_SERVER_API_ERROR_BAD_RESPONSE:
162 /** Returns current system time (wrapper for standard system function)
163 @return current system time
165 timeval my_gettime() {
167 int res = gettimeofday(&t, NULL);
168 RUNNER_ASSERT_MSG_BT(res == 0, "gettimeofday() returned error value: " << res);
172 /** Return a difference between two times (wrapper for standard system function)
177 timeval my_timersub(timeval t1, timeval t2) {
179 timersub(&t1, &t2, &result);
183 double timeval_to_microsecs(timeval t) {
184 return ((double)t.tv_sec * (double)MICROSECS_PER_SEC) + ((double)t.tv_usec);
187 /** Initialize statistics at the beginning of a TEST_CASE
188 @param stats [in/out] statistics to be initialized
190 void initialize_stats(readwrite_stats *stats) {
191 stats->number_of_calls = 0;
192 stats->total_duration = 0.0;
193 stats->average_duration = 0.0;
194 stats->minimal_duration = DBL_MAX;
195 stats->maximal_duration = 0.0;
198 /** Save time at the beginning of a RUN
199 @param stats [in/out] statistics
201 void start_stats_update(readwrite_stats *stats) {
202 stats->current_start_time = my_gettime();
203 //LogDebug("start_stats_update at: %ld.%06ld\n", stats->current_start_time.tv_sec, stats->current_start_time.tv_usec);
206 /** Save time at the end of a RUN and updates the statistics (current_end_time, number_of_calls, total_duration, minimal_duration, maximal_duration)
207 @param stats [in/out] statistics
209 void end_stats_update(readwrite_stats *stats) {
210 stats->current_end_time = my_gettime();
211 double current_duration = timeval_to_microsecs(my_timersub(stats->current_end_time, stats->current_start_time));
212 stats->total_duration += current_duration;
213 stats->number_of_calls += 1;
214 if (current_duration < stats->minimal_duration)
215 (stats->minimal_duration) = current_duration;
216 if (current_duration > stats->maximal_duration)
217 (stats->maximal_duration) = current_duration;
220 /** Updates the statistics (average_duration, number_of_new_calls, total_duration, minimal_duration, maximal_duration)
221 Function is used instead of start_stats_update and end_stats_update (e.g when current_duration and number_of_new_calls are reported by child process.
222 @param stats [in/out] statistics
223 @param number_of_new_calls number of function calls in the RUN
224 @param current_duration (total) of number_of_new calls
226 void stats_update(readwrite_stats *stats, int number_of_new_calls, double current_duration) {
227 if (number_of_new_calls > 0) {
228 double current_average = (double)current_duration / (double)number_of_new_calls;
229 stats->average_duration = (double)((stats->total_duration) / (stats->number_of_calls));
230 stats->total_duration += current_duration;
231 stats->number_of_calls += number_of_new_calls;
232 if (current_average < stats->minimal_duration)
233 (stats->minimal_duration) = current_average;
234 if (current_average > stats->maximal_duration)
235 (stats->maximal_duration) = current_average;
238 LogDebug("stats_update called after zero successful function calls \n");
241 /** Calculate the average time and calculates statistics taken by a single function call.
242 Called at the end of a TEST_CASE.
243 @param stats [in/out] statistics
244 @param function_name of the function called in tests (to be printed)
246 void finish_stats(readwrite_stats *stats, const char* function_name) {
247 if ((stats->number_of_calls) > 0) {
248 stats->average_duration = (double)((stats->total_duration) / (stats->number_of_calls));
249 printf("The approx (min, max, avg) execution times for function:\n%s are: \n---(%'.2fus, %'.2fus, %'.2fus)\n", function_name, stats->minimal_duration, stats->maximal_duration, stats->average_duration);
252 LogDebug("No function call succeeded\n");
256 RUNNER_TEST_GROUP_INIT(SECURITY_SERVER_API_SPEED_MEASURER)
259 * test: Tests the tests
260 * expected: The minimum shall be about (QUANTUM) = 10^-2s = 10000 us, max about (NUMBER_OF_CALLS*QUANTUM) = 5*10^-2s = 50000us, avg (average) about (0.5*NUMBER_OF_CALLS+1*QUANTUM)=3*10^-2s = 30000us. Max is no more than 50% bigger than minimum.
262 RUNNER_TEST(m000_security_server_test_the_tests) {
264 readwrite_stats stats;
265 double expected_min_min = QUANTUM;
266 double expected_min_max = 1.5 * expected_min_min;
267 double expected_avarage_min = (((double)(NUMBER_OF_CALLS + 1)) / 2.0) * expected_min_min;
268 double expected_avarage_max = 1.5 * expected_avarage_min;
269 double expected_max_min = ((double)(NUMBER_OF_CALLS)) * expected_min_min;
270 double expected_max_max = 1.5 * expected_max_min;
271 initialize_stats(&stats);
272 for (int i=0; i < NUMBER_OF_CALLS; i++) {
273 start_stats_update(&stats);
274 ret = my_nanosecsleep((long) ((i+1)*QUANTUM*1000));
275 RUNNER_ASSERT_MSG_BT(ret == 0, "system sleep function returned premature wake-up; ret = " << ret);
276 end_stats_update(&stats);
278 finish_stats(&stats, "my_nanosecsleep");
279 RUNNER_ASSERT_MSG_BT((stats.average_duration>expected_avarage_min) && (stats.average_duration<expected_avarage_max), "Avarage time is suspicious - check the issue; stats.average_duration=" << stats.average_duration);
280 RUNNER_ASSERT_MSG_BT((stats.minimal_duration>expected_min_min) && (stats.minimal_duration<expected_min_max), "Minimal time is suspicious - check the issue; stats.minimal_duration=" << stats.minimal_duration);
281 RUNNER_ASSERT_MSG_BT((stats.maximal_duration>expected_max_min) && (stats.maximal_duration<expected_max_max), "Maximal time is suspicious - check the issue; stats.maximal_duration=" << stats.maximal_duration);
285 * measurer: Fails only on connection error.
287 RUNNER_TEST(m010_security_server_security_server_get_gid) {
289 readwrite_stats stats;
290 initialize_stats(&stats);
291 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
292 start_stats_update(&stats);
293 ret = security_server_get_gid(EXISTING_GROUP_NAME);
294 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
295 end_stats_update(&stats);
297 finish_stats(&stats, "security_server_get_gid");
301 * measurer: Fails only on connection error.
303 RUNNER_TEST(m030_security_server_request_cookie) {
306 cookie_size = security_server_get_cookie_size();
307 char cookie[cookie_size];
308 readwrite_stats stats;
309 initialize_stats(&stats);
310 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
311 start_stats_update(&stats);
312 ret = security_server_request_cookie(cookie, cookie_size);
313 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
314 end_stats_update(&stats);
316 finish_stats(&stats, "security_server_request_cookie");
320 * measurer: Fails only on connection error.
321 * Create new processes and measures times of first calls of security_server_request_cookie in them
324 RUNNER_MULTIPROCESS_TEST(m031_security_server_request_cookie_first_time_only) {
327 cookie_size = security_server_get_cookie_size();
328 char cookie[cookie_size];
329 readwrite_stats stats;
334 double duration_of_calls;
335 /*initialize pipes - one pipe for one child process*/
336 RUNNER_ASSERT_MSG_BT(0 == pipe(pipefd), "error in pipe");
337 initialize_stats(&stats);
338 for (int i = 0; i < NUMBER_OF_CALLS; i++) {
339 RUNNER_ASSERT_MSG_BT(-1 != (cpid = fork()), "error in fork #i = " << i);
340 if (cpid == 0) { /* Child*/
341 close(pipefd[0]); /* Close unused read end */
344 start_time = my_gettime();
345 ret = security_server_request_cookie(cookie, cookie_size);
346 end_time = my_gettime();
347 if (communication_succeeded(ret) == 0) {
349 duration_of_calls = timeval_to_microsecs(my_timersub(end_time, start_time));
354 duration_of_calls = 0.0;
356 RUNNER_ASSERT_MSG_BT(my_pipe_write(pipefd[1], &number_of_calls, sizeof(number_of_calls)) == sizeof(number_of_calls), "error in write number of calls to pipe");
357 RUNNER_ASSERT_MSG_BT(my_pipe_write(pipefd[1], &duration_of_calls, sizeof(duration_of_calls)) == sizeof(duration_of_calls), "error in write duration of calls to pipe");
362 RUNNER_ASSERT_MSG_BT(my_pipe_read(pipefd[0], &number_of_calls, sizeof(number_of_calls)) == sizeof(number_of_calls), "error in read number of calls to pipe");
363 RUNNER_ASSERT_MSG_BT(my_pipe_read(pipefd[0], &duration_of_calls, sizeof(duration_of_calls)) == sizeof(duration_of_calls), "error in read duration of calls to pipe");
365 RUNNER_ASSERT_MSG_BT(number_of_calls > 0, "commmunication error");
366 stats_update(&stats, number_of_calls, duration_of_calls);
370 close(pipefd[1]); /* Close parent descriptors */
375 * measurer: Fails only on connection error.
377 RUNNER_TEST(m040_security_server_get_cookie_size) {
379 readwrite_stats stats;
380 initialize_stats(&stats);
381 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
382 start_stats_update(&stats);
383 cookie_size = security_server_get_cookie_size();
384 RUNNER_ASSERT_MSG_BT(cookie_size > 0, "cookie_size = " << cookie_size);
385 end_stats_update(&stats);
387 finish_stats(&stats, "security_server_get_cookie_size");
391 * measurer: Fails only on connection error.
393 RUNNER_TEST(m050_security_server_check_privilege) {
395 readwrite_stats stats;
396 initialize_stats(&stats);
397 const char *existing_group_name = EXISTING_GROUP_NAME;
400 // we use existing group name for the measurment, however this is not neccessary
401 call_gid = security_server_get_gid(existing_group_name);
402 cookie_size = security_server_get_cookie_size();
403 char recved_cookie[cookie_size];
404 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
405 start_stats_update(&stats);
406 ret = security_server_check_privilege(recved_cookie, (gid_t)call_gid);
407 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
408 end_stats_update(&stats);
410 finish_stats(&stats, "security_server_check_privilege");
413 void testSecurityServerCheckPrivilegeByCookie(bool smack) {
414 const char *object_label = M60_OBJECT_LABEL;
415 const char *access_rights = "r";
416 const char *access_rights_ext = "rw";
417 const char *subject_label = M60_SUBJECT_LABEL;
419 readwrite_stats stats;
420 initialize_stats(&stats);
423 SmackAccess smackAccess;
424 smackAccess.add(subject_label, object_label, access_rights);
426 RUNNER_ASSERT_MSG_BT(0 == (ret = smack_set_label_for_self(subject_label)),
427 "Error in smack_set_label_for_self(); ret = " << ret);
430 Cookie cookie = getCookieFromSS();
432 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
433 start_stats_update(&stats);
434 /*odd(i) - ask for possessed privileges, even(i) ask for not possessed privileges */
436 ret = security_server_check_privilege_by_cookie(
441 ret = security_server_check_privilege_by_cookie(
446 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
447 end_stats_update(&stats);
449 finish_stats(&stats, "security_server_check_privilege_by_cookie");
453 * measurer: Fails only on connection error.
456 RUNNER_TEST_SMACK(m060_security_server_check_privilege_by_cookie_smack) {
457 RUNNER_IGNORED_MSG("security_server_check_privilege_by_cookie is temporarily disabled: always returns success");
458 testSecurityServerCheckPrivilegeByCookie(true);
461 RUNNER_TEST_NOSMACK(m060_security_server_check_privilege_by_cookie_nosmack) {
462 RUNNER_IGNORED_MSG("security_server_check_privilege_by_cookie is temporarily disabled: always returns success");
463 testSecurityServerCheckPrivilegeByCookie(false);
466 void testSecurityServerCheckPrivilegeBySockfd(bool smack) {
467 const char *object_label = M70_OBJECT_LABEL;
468 const char *access_rights = "r";
469 const char *access_rights_ext = "rw";
470 const char *subject_label = M70_SUBJECT_LABEL;
472 readwrite_stats stats;
473 initialize_stats(&stats);
476 SmackAccess smackAccess;
477 smackAccess.add(subject_label, object_label, access_rights);
482 RUNNER_ASSERT_BT(-1 != pid);
485 int sockfd = create_new_socket();
486 RUNNER_ASSERT_MSG_BT(sockfd >= 0, "create_new_socket() failed");
488 SockUniquePtr sockfd_ptr(&sockfd);
491 RUNNER_ASSERT_MSG_BT(0 == smack_set_label_for_self(subject_label), "child label " << subject_label << " not set");
493 RUNNER_ASSERT_MSG_BT(listen(sockfd, 5) >= 0, "child listen failed");
495 struct sockaddr_un client_addr;
496 socklen_t client_len = sizeof(client_addr);
498 RUNNER_ASSERT_MSG_BT((csockfd = accept(sockfd,(struct sockaddr*)&client_addr, &client_len)) > 0, "child accept failed");
506 int sockfd = connect_to_testserver();
507 RUNNER_ASSERT_MSG_BT(sockfd >= 0, "connect_to_testserver() failed");
509 SockUniquePtr sockfd_ptr(&sockfd);
511 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
512 start_stats_update(&stats);
513 /*odd(i) - ask for possessed privileges, even(i) ask for not possessed privileges */
515 ret = security_server_check_privilege_by_sockfd(
520 ret = security_server_check_privilege_by_sockfd(
524 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
525 end_stats_update(&stats);
528 finish_stats(&stats, "check_privilege_by_sockfd");
533 * measurer: Fails only on connection error.
536 RUNNER_MULTIPROCESS_TEST_SMACK(m070_security_server_check_privilege_by_sockfd_smack) {
537 RUNNER_IGNORED_MSG("security_server_check_privilege_by_sockfd is temporarily disabled: always returns success");
538 testSecurityServerCheckPrivilegeBySockfd(true);
541 RUNNER_MULTIPROCESS_TEST_NOSMACK(m070_security_server_check_privilege_by_sockfd_nosmack) {
542 RUNNER_IGNORED_MSG("security_server_check_privilege_by_sockfd is temporarily disabled: always returns success");
543 testSecurityServerCheckPrivilegeBySockfd(false);
547 * measurer: Fails only on connection error.
549 RUNNER_TEST(m080_security_server_get_cookie_pid) {
552 cookie_size = security_server_get_cookie_size();
553 char cookie[cookie_size];
554 ret = security_server_request_cookie(cookie, cookie_size);
555 RUNNER_ASSERT_MSG_BT(ret == SECURITY_SERVER_API_SUCCESS, "security_server_request_cookie failed; ret = " << ret);
556 readwrite_stats stats;
557 initialize_stats(&stats);
558 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
559 start_stats_update(&stats);
560 ret = security_server_get_cookie_pid(cookie);
561 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
562 end_stats_update(&stats);
564 finish_stats(&stats, "security_server_request_cookie");
568 * measurer: Fails only on connection error.
570 RUNNER_TEST(m090_security_server_is_pwd_valid) {
572 unsigned int attempt, max_attempt, expire_sec;
573 readwrite_stats stats;
574 initialize_stats(&stats);
575 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
576 start_stats_update(&stats);
577 ret = security_server_is_pwd_valid(&attempt, &max_attempt, &expire_sec);
578 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
579 end_stats_update(&stats);
581 finish_stats(&stats, "security_server_is_pwd_valid");
585 * measurer: Fails only on connection error.
587 RUNNER_TEST(m100_security_server_set_pwd) {
589 readwrite_stats stats;
590 initialize_stats(&stats);
591 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
592 start_stats_update(&stats);
593 ret = security_server_set_pwd("this_is_current_pwd", "this_is_new_pwd", 20, 365);
594 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
595 end_stats_update(&stats);
597 finish_stats(&stats, "security_server_set_pwd");
601 * measurer: Fails only on connection error.
603 RUNNER_TEST(m110_security_server_set_pwd_validity) {
605 readwrite_stats stats;
606 initialize_stats(&stats);
607 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
608 start_stats_update(&stats);
609 ret = security_server_set_pwd_validity(2);
610 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
611 end_stats_update(&stats);
613 finish_stats(&stats, "security_server_set_pwd_validity");
617 * measurer: Fails only on connection error.
619 RUNNER_TEST(m120_security_server_set_pwd_max_challenge) {
621 readwrite_stats stats;
622 initialize_stats(&stats);
623 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
624 start_stats_update(&stats);
625 ret = security_server_set_pwd_max_challenge(3);
626 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
627 end_stats_update(&stats);
629 finish_stats(&stats, "security_server_set_pwd_max_challenge");
633 * measurer: Fails only on connection error.
635 RUNNER_TEST(m130_security_server_reset_pwd) {
637 readwrite_stats stats;
638 initialize_stats(&stats);
639 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
640 start_stats_update(&stats);
641 ret = security_server_reset_pwd("apud", 1, 2);
642 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
643 end_stats_update(&stats);
645 finish_stats(&stats, "security_server_reset_pwd");
649 * measurer: Fails only on connection error.
651 RUNNER_TEST(m140_security_server_chk_pwd) {
653 unsigned int attempt, max_attempt, expire_sec;
654 readwrite_stats stats;
655 initialize_stats(&stats);
656 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
657 start_stats_update(&stats);
658 ret = security_server_chk_pwd("is_this_password", &attempt, &max_attempt, &expire_sec);
659 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
660 end_stats_update(&stats);
662 finish_stats(&stats, "security_server_chk_pwd");
666 * measurer: Fails only on connection error.
668 RUNNER_TEST(m150_security_server_set_pwd_history) {
670 readwrite_stats stats;
671 initialize_stats(&stats);
672 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
673 start_stats_update(&stats);
674 ret = security_server_set_pwd_history(100);
675 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
676 end_stats_update(&stats);
678 finish_stats(&stats, "security_server_set_pwd_history");
682 * measurer: Fails only on connection error.
684 RUNNER_TEST(m160_security_server_app_give_access) {
686 readwrite_stats stats;
687 initialize_stats(&stats);
688 const char* customer_label = M160_CUSTOMER_LABEL;
689 int customer_pid = getpid();
690 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
691 start_stats_update(&stats);
692 ret = security_server_app_give_access(customer_label, customer_pid);
693 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
694 end_stats_update(&stats);
696 finish_stats(&stats, "security_server_app_give_access");
700 * measurer: Fails only on connection error.
702 RUNNER_TEST(m170_security_server_check_privilege_by_pid) {
704 RUNNER_IGNORED_MSG("security_server_check_privilege_by_pid is temporarily disabled: always returns success");
706 readwrite_stats stats;
707 initialize_stats(&stats);
709 const char *object = M170_OBJECT_LABEL;
710 const char *access_rights = "rw";
711 for (int i = 1; i <= NUMBER_OF_CALLS; i++) {
712 start_stats_update(&stats);
713 ret = security_server_check_privilege_by_pid(pid, object, access_rights);
714 RUNNER_ASSERT_MSG_BT(communication_succeeded(ret) == 0, "commmunication error; ret = " << ret);
715 end_stats_update(&stats);
717 finish_stats(&stats, "security_server_check_privilege_by_pid");
721 int main(int argc, char *argv[])
723 SummaryCollector::Register();
724 securityClientEnableLogSystem();
725 DPL::Test::TestRunnerSingleton::Instance().ExecTestRunner(argc, argv);