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author | Erlang/OTP <[email protected]> | 2009-11-20 14:54:40 +0000 |
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committer | Erlang/OTP <[email protected]> | 2009-11-20 14:54:40 +0000 |
commit | 84adefa331c4159d432d22840663c38f155cd4c1 (patch) | |
tree | bff9a9c66adda4df2106dfd0e5c053ab182a12bd /erts/test/ethread_SUITE_data/ethread_tests.c | |
download | otp-84adefa331c4159d432d22840663c38f155cd4c1.tar.gz otp-84adefa331c4159d432d22840663c38f155cd4c1.tar.bz2 otp-84adefa331c4159d432d22840663c38f155cd4c1.zip |
The R13B03 release.OTP_R13B03
Diffstat (limited to 'erts/test/ethread_SUITE_data/ethread_tests.c')
-rw-r--r-- | erts/test/ethread_SUITE_data/ethread_tests.c | 2403 |
1 files changed, 2403 insertions, 0 deletions
diff --git a/erts/test/ethread_SUITE_data/ethread_tests.c b/erts/test/ethread_SUITE_data/ethread_tests.c new file mode 100644 index 0000000000..f779f13c51 --- /dev/null +++ b/erts/test/ethread_SUITE_data/ethread_tests.c @@ -0,0 +1,2403 @@ +/* + * %CopyrightBegin% + * + * Copyright Ericsson AB 2004-2009. All Rights Reserved. + * + * The contents of this file are subject to the Erlang Public License, + * Version 1.1, (the "License"); you may not use this file except in + * compliance with the License. You should have received a copy of the + * Erlang Public License along with this software. If not, it can be + * retrieved online at http://www.erlang.org/. + * + * Software distributed under the License is distributed on an "AS IS" + * basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See + * the License for the specific language governing rights and limitations + * under the License. + * + * %CopyrightEnd% + */ + +/* + * Description: Test suite for the ethread thread library. + * Author: Rickard Green + */ + +#define ETHR_NO_SUPP_THR_LIB_NOT_FATAL +#include "ethread.h" +#include "erl_misc_utils.h" + +#include <stdio.h> +#include <stdarg.h> +#include <string.h> +#ifndef __WIN32__ +#include <unistd.h> +#endif +#include <limits.h> + +/* + * Auxiliary functions + */ + +#define PRINT_VA_LIST(FRMT) \ +do { \ + if (FRMT && FRMT != '\0') { \ + va_list args; \ + va_start(args, FRMT); \ + vfprintf(stderr, FRMT, args); \ + va_end(args); \ + } \ +} while (0) + +#define ASSERT(B) \ +do { \ + if (!(B)) \ + fail("%s:%d: Assertion \"%s\" failed!",__FILE__,__LINE__,#B); \ +} while (0) + + +#define ASSERT_PRINT(B, PRNT) \ +do { \ + if (!(B)) { \ + print PRNT; \ + fail("%s:%d: Assertion \"%s\" failed!",__FILE__,__LINE__,#B); \ + } \ +} while (0) + +#define ASSERT_EQ(VAR, VAL, FSTR) \ +do { \ + if ((VAR) != (VAL)) { \ + print("%s=" FSTR "\n", #VAR, (VAR)); \ + fail("%s:%d: Assertion \"%s == " FSTR "\" failed!", \ + __FILE__, __LINE__, #VAR, (VAL)); \ + } \ +} while (0) + +#ifdef __WIN32_ +#define EOL "\r\n" +#else +#define EOL "\n" +#endif + +static void +print_eol(void) +{ + fprintf(stderr, EOL); +} + +static void print_line(char *frmt,...) +{ + PRINT_VA_LIST(frmt); + print_eol(); +} + +static void print(char *frmt,...) +{ + PRINT_VA_LIST(frmt); +} + +static void fail(char *frmt,...) +{ + char *abrt_env; + print_eol(); + fprintf(stderr, "ETHR-TEST-FAILURE"); + PRINT_VA_LIST(frmt); + print_eol(); + abrt_env = getenv("ERL_ABORT_ON_FAILURE"); + if (abrt_env && strcmp("true", abrt_env) == 0) + abort(); + else + exit(1); +} + +static void skip(char *frmt,...) +{ + print_eol(); + fprintf(stderr, "ETHR-TEST-SKIP"); + PRINT_VA_LIST(frmt); + print_eol(); + exit(0); +} + +static void succeed(char *frmt,...) +{ + print_eol(); + fprintf(stderr, "ETHR-TEST-SUCCESS"); + PRINT_VA_LIST(frmt); + print_eol(); + exit(0); +} + +static void +do_sleep(unsigned secs) +{ + while (erts_milli_sleep(secs*1000) != 0); +} + +#define WAIT_UNTIL_INTERVAL 10 + +#define WAIT_UNTIL_LIM(TEST, LIM) \ +do { \ + int ms__ = (LIM)*1000; \ + while (!(TEST)) { \ + while (erts_milli_sleep(WAIT_UNTIL_INTERVAL) != 0); \ + ms__ -= WAIT_UNTIL_INTERVAL; \ + if (ms__ <= 0) \ + break; \ + } \ +} while (0) + +static void +send_my_pid(void) +{ +#ifndef __WIN32__ + int pid = (int) getpid(); + fprintf(stderr, EOL "ETHR-TEST-PID%d" EOL, pid); +#endif +} + +/* + * The test-cases + */ + +#ifndef ETHR_NO_THREAD_LIB + +/* + * The create join thread test case. + * + * Tests ethr_thr_create and ethr_thr_join. + */ + +#define CJTT_NO_THREADS 64 +ethr_tid cjtt_tids[CJTT_NO_THREADS + 1]; +int cjtt_ix[CJTT_NO_THREADS + 1]; +int cjtt_res[CJTT_NO_THREADS + 1]; +void *cjtt_thread(void *vpix) +{ + int ix = *((int *) vpix); + cjtt_res[ix] = ix; + return (void *) &cjtt_res[ix]; +} + +static void +create_join_thread_test(void) +{ + int i, res; + + for (i = 1; i <= CJTT_NO_THREADS; i++) { + cjtt_ix[i] = i; + cjtt_res[i] = 0; + } + + for (i = 1; i <= CJTT_NO_THREADS; i++) { + res = ethr_thr_create(&cjtt_tids[i], + cjtt_thread, + (void *) &cjtt_ix[i], + NULL); + ASSERT(res == 0); + } + + for (i = 1; i <= CJTT_NO_THREADS; i++) { + int *tres; + res = ethr_thr_join(cjtt_tids[i], (void **) &tres); + ASSERT(res == 0); + ASSERT(tres == &cjtt_res[i]); + ASSERT(cjtt_res[i] == i); + } + +} + + +/* + * The eq tid test case. + * + * Tests ethr_equal_tids. + */ + +#define ETT_THREADS 100000 + +static ethr_tid ett_tids[3]; +static ethr_mutex ett_mutex = ETHR_MUTEX_INITER; +static ethr_cond ett_cond = ETHR_COND_INITER; +static int ett_terminate; + +static void * +ett_thread(void *my_tid) +{ + + ASSERT(!ethr_equal_tids(ethr_self(), ett_tids[0])); + ASSERT(ethr_equal_tids(ethr_self(), *((ethr_tid *) my_tid))); + + return NULL; +} + +static void * +ett_thread2(void *unused) +{ + int res; + res = ethr_mutex_lock(&ett_mutex); + ASSERT(res == 0); + while (!ett_terminate) { + res = ethr_cond_wait(&ett_cond, &ett_mutex); + ASSERT(res == 0); + } + res = ethr_mutex_unlock(&ett_mutex); + ASSERT(res == 0); + return NULL; +} + +static void +equal_tids_test(void) +{ + int res, i; + + ett_tids[0] = ethr_self(); + + res = ethr_thr_create(&ett_tids[1], ett_thread, (void *) &ett_tids[1], NULL); + ASSERT(res == 0); + + ASSERT(ethr_equal_tids(ethr_self(), ett_tids[0])); + ASSERT(!ethr_equal_tids(ethr_self(), ett_tids[1])); + + res = ethr_thr_join(ett_tids[1], NULL); + + res = ethr_thr_create(&ett_tids[2], ett_thread, (void *) &ett_tids[2], NULL); + ASSERT(res == 0); + + ASSERT(ethr_equal_tids(ethr_self(), ett_tids[0])); + ASSERT(!ethr_equal_tids(ethr_self(), ett_tids[1])); + ASSERT(!ethr_equal_tids(ethr_self(), ett_tids[2])); + +#if 0 + /* This fails on some linux platforms. Until we decides if a tid + * is allowed to be reused right away or not, we disable the test. + */ + + ASSERT(!ethr_equal_tids(ett_tids[1], ett_tids[2])); +#endif + + res = ethr_thr_join(ett_tids[2], NULL); + ASSERT(res == 0); + + /* Second part of test */ + + ett_terminate = 0; + + res = ethr_thr_create(&ett_tids[1], ett_thread2, NULL, NULL); + ASSERT(res == 0); + + ASSERT(!ethr_equal_tids(ett_tids[0], ett_tids[1])); + + for (i = 0; i < ETT_THREADS; i++) { + res = ethr_thr_create(&ett_tids[2], ett_thread, (void*)&ett_tids[2], NULL); + ASSERT(res == 0); + + ASSERT(!ethr_equal_tids(ett_tids[0], ett_tids[2])); + ASSERT(!ethr_equal_tids(ett_tids[1], ett_tids[2])); + + res = ethr_thr_join(ett_tids[2], NULL); + ASSERT(res == 0); + } + + res = ethr_mutex_lock(&ett_mutex); + ASSERT(res == 0); + ett_terminate = 1; + res = ethr_cond_signal(&ett_cond); + ASSERT(res == 0); + res = ethr_mutex_unlock(&ett_mutex); + ASSERT(res == 0); + res = ethr_thr_join(ett_tids[1], NULL); + ASSERT(res == 0); + + res = ethr_cond_destroy(&ett_cond); + ASSERT(res == 0); + res = ethr_mutex_destroy(&ett_mutex); + ASSERT(res == 0); + +} + +/* + * The mutex test case. + * + * Tests mutexes. + */ + +static ethr_mutex mt_mutex = ETHR_MUTEX_INITER; +static int mt_data; + +void * +mt_thread(void *unused) +{ + int res; + + print_line("Aux thread tries to lock mutex"); + res = ethr_mutex_lock(&mt_mutex); + ASSERT(res == 0); + print_line("Aux thread locked mutex"); + + ASSERT(mt_data == 0); + + mt_data = 1; + print_line("Aux thread wrote"); + + print_line("Aux thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Aux thread woke up"); + + ASSERT(mt_data == 1); + + res = ethr_mutex_unlock(&mt_mutex); + ASSERT(res == 0); + print_line("Aux thread unlocked mutex"); + + return NULL; +} + + +static void +mutex_test(void) +{ + int do_restart = 1; + int res; + ethr_tid tid; + + print_line("Running test with statically initialized mutex"); + + restart: + mt_data = 0; + + print_line("Main thread tries to lock mutex"); + res = ethr_mutex_lock(&mt_mutex); + ASSERT(res == 0); + print_line("Main thread locked mutex"); + + ASSERT(mt_data == 0); + + print_line("Main thread about to create aux thread"); + res = ethr_thr_create(&tid, mt_thread, NULL, NULL); + ASSERT(res == 0); + print_line("Main thread created aux thread"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(mt_data == 0); + + res = ethr_mutex_unlock(&mt_mutex); + ASSERT(res == 0); + print_line("Main thread unlocked mutex"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + print_line("Main thread tries to lock mutex"); + res = ethr_mutex_lock(&mt_mutex); + ASSERT(res == 0); + print_line("Main thread locked mutex"); + + ASSERT(mt_data == 1); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(mt_data == 1); + + res = ethr_mutex_unlock(&mt_mutex); + ASSERT(res == 0); + print_line("Main thread unlocked mutex"); + + res = ethr_thr_join(tid, NULL); + ASSERT(res == 0); + print_line("Main thread joined aux thread"); + + res = ethr_mutex_destroy(&mt_mutex); + ASSERT(res == 0); + print_line("Main thread destroyed mutex"); + + if (do_restart) { + do_restart = 0; + + print_line("Running test with dynamically initialized mutex"); + + print_line("Trying to initialize mutex"); + res = ethr_mutex_init(&mt_mutex); + ASSERT(res == 0); + print_line("Initialized mutex"); + + goto restart; + + } + +} + +/* + * The try lock mutex test case. + * + * Tests try lock mutex operation. + */ + +static ethr_mutex tlmt_mtx1 = ETHR_MUTEX_INITER; +static ethr_mutex tlmt_mtx2 = ETHR_MUTEX_INITER; +static ethr_cond tlmt_cnd2 = ETHR_COND_INITER; + +static int tlmt_mtx1_locked; +static int tlmt_mtx1_do_unlock; + +static void * +tlmt_thread(void *unused) +{ + int res; + + res = ethr_mutex_lock(&tlmt_mtx1); + ASSERT(res == 0); + res = ethr_mutex_lock(&tlmt_mtx2); + ASSERT(res == 0); + + tlmt_mtx1_locked = 1; + res = ethr_cond_signal(&tlmt_cnd2); + ASSERT(res == 0); + + while (!tlmt_mtx1_do_unlock) { + res = ethr_cond_wait(&tlmt_cnd2, &tlmt_mtx2); + ASSERT(res == 0 || res == EINTR); + } + + res = ethr_mutex_unlock(&tlmt_mtx2); + ASSERT(res == 0); + res = ethr_mutex_unlock(&tlmt_mtx1); + ASSERT(res == 0); + + res = ethr_mutex_lock(&tlmt_mtx2); + ASSERT(res == 0); + tlmt_mtx1_locked = 0; + res = ethr_cond_signal(&tlmt_cnd2); + ASSERT(res == 0); + res = ethr_mutex_unlock(&tlmt_mtx2); + ASSERT(res == 0); + + return NULL; +} + +static void +try_lock_mutex_test(void) +{ + int i, res; + ethr_tid tid; + + tlmt_mtx1_locked = 0; + tlmt_mtx1_do_unlock = 0; + + res = ethr_thr_create(&tid, tlmt_thread, NULL, NULL); + ASSERT(res == 0); + + res = ethr_mutex_lock(&tlmt_mtx2); + ASSERT(res == 0); + + while (!tlmt_mtx1_locked) { + res = ethr_cond_wait(&tlmt_cnd2, &tlmt_mtx2); + ASSERT(res == 0 || res == EINTR); + } + + res = ethr_mutex_unlock(&tlmt_mtx2); + ASSERT(res == 0); + + for (i = 0; i < 10; i++) { + res = ethr_mutex_trylock(&tlmt_mtx1); + ASSERT(res == EBUSY); + } + + res = ethr_mutex_lock(&tlmt_mtx2); + ASSERT(res == 0); + + tlmt_mtx1_do_unlock = 1; + res = ethr_cond_signal(&tlmt_cnd2); + ASSERT(res == 0); + + while (tlmt_mtx1_locked) { + res = ethr_cond_wait(&tlmt_cnd2, &tlmt_mtx2); + ASSERT(res == 0 || res == EINTR); + } + + res = ethr_mutex_unlock(&tlmt_mtx2); + ASSERT(res == 0); + + res = ethr_mutex_trylock(&tlmt_mtx1); + ASSERT(res == 0); + + res = ethr_mutex_unlock(&tlmt_mtx1); + ASSERT(res == 0); + + res = ethr_thr_join(tid, NULL); + ASSERT(res == 0); + + res = ethr_mutex_destroy(&tlmt_mtx1); + ASSERT(res == 0); + res = ethr_mutex_destroy(&tlmt_mtx2); + ASSERT(res == 0); + res = ethr_cond_destroy(&tlmt_cnd2); + ASSERT(res == 0); +} + +/* + * The recursive mutex test case. + * + * Tests recursive mutexes. + */ + +#ifdef ETHR_HAVE_ETHR_REC_MUTEX_INIT + +static ethr_mutex rmt_mutex +#ifdef ETHR_REC_MUTEX_INITER + = ETHR_REC_MUTEX_INITER +#endif + ; +static int rmt_data; + +void * +rmt_thread(void *unused) +{ + int res; + + print_line("Aux thread tries to lock mutex"); + res = ethr_mutex_lock(&rmt_mutex); + ASSERT(res == 0); + print_line("Aux thread locked mutex"); + + ASSERT(rmt_data == 0); + + rmt_data = 1; + print_line("Aux thread wrote"); + + print_line("Aux thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Aux thread woke up"); + + ASSERT(rmt_data == 1); + + res = ethr_mutex_unlock(&rmt_mutex); + ASSERT(res == 0); + print_line("Aux thread unlocked mutex"); + + return NULL; +} + +#endif + +static void +recursive_mutex_test(void) +{ +#ifdef ETHR_HAVE_ETHR_REC_MUTEX_INIT + int do_restart = 1; + int res; + ethr_tid tid; + +#ifdef ETHR_REC_MUTEX_INITER + print_line("Running test with statically initialized mutex"); +#else + goto dynamic_init; +#endif + + restart: + rmt_data = 0; + + print_line("Main thread tries to lock mutex"); + res = ethr_mutex_lock(&rmt_mutex); + ASSERT(res == 0); + print_line("Main thread locked mutex"); + + print_line("Main thread tries to lock mutex again"); + res = ethr_mutex_lock(&rmt_mutex); + ASSERT(res == 0); + print_line("Main thread locked mutex again"); + + ASSERT(rmt_data == 0); + + print_line("Main thread about to create aux thread"); + res = ethr_thr_create(&tid, rmt_thread, NULL, NULL); + ASSERT(res == 0); + print_line("Main thread created aux thread"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(rmt_data == 0); + + res = ethr_mutex_unlock(&rmt_mutex); + ASSERT(res == 0); + print_line("Main thread unlocked mutex"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(rmt_data == 0); + + res = ethr_mutex_unlock(&rmt_mutex); + ASSERT(res == 0); + print_line("Main thread unlocked mutex again"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + print_line("Main thread tries to lock mutex"); + res = ethr_mutex_lock(&rmt_mutex); + ASSERT(res == 0); + print_line("Main thread locked mutex"); + + ASSERT(rmt_data == 1); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(rmt_data == 1); + + res = ethr_mutex_unlock(&rmt_mutex); + ASSERT(res == 0); + print_line("Main thread unlocked mutex"); + + res = ethr_thr_join(tid, NULL); + ASSERT(res == 0); + print_line("Main thread joined aux thread"); + + res = ethr_mutex_destroy(&rmt_mutex); + ASSERT(res == 0); + print_line("Main thread destroyed mutex"); + + if (do_restart) { +#ifndef ETHR_REC_MUTEX_INITER + dynamic_init: +#endif + do_restart = 0; + + print_line("Running test with dynamically initialized mutex"); + + print_line("Trying to initialize mutex"); + res = ethr_rec_mutex_init(&rmt_mutex); + ASSERT(res == 0); + print_line("Initialized mutex"); + + goto restart; + } + +#ifndef ETHR_REC_MUTEX_INITER + succeed("Static initializer for recursive mutexes not supported"); +#endif + +#else /* #ifdef ETHR_HAVE_ETHR_REC_MUTEX_INIT */ + skip("Recursive mutexes not supported"); +#endif /* #ifdef ETHR_HAVE_ETHR_REC_MUTEX_INIT */ +} + +/* + * The time now test. + * + * Tests ethr_time_now by comparing time values with Erlang. + */ +#define TNT_MAX_TIME_DIFF 200000 +#define TNT_MAX_TIME_VALUES 52 + +static void +time_now_test(void) +{ + int scanf_res, time_now_res, i, no_values, max_abs_diff; + static ethr_timeval tv[TNT_MAX_TIME_VALUES]; + static int ms[TNT_MAX_TIME_VALUES]; + + i = 0; + do { + ASSERT(i < TNT_MAX_TIME_VALUES); + scanf_res = scanf("%d", &ms[i]); + time_now_res = ethr_time_now(&tv[i]); + ASSERT(scanf_res == 1); + ASSERT(time_now_res == 0); +#if 0 + print_line("Got %d; %ld:%ld", ms[i], tv[i].tv_sec, tv[i].tv_nsec); +#endif + i++; + } while (ms[i-1] >= 0); + + no_values = i-1; + + ASSERT(ms[0] == 0); + + print_line("TNT_MAX_TIME_DIFF = %d (us)", TNT_MAX_TIME_DIFF); + + max_abs_diff = 0; + + for (i = 1; i < no_values; i++) { + long diff; + long tn_us; + long e_us; + + tn_us = (tv[i].tv_sec - tv[0].tv_sec) * 1000000; + tn_us += (tv[i].tv_nsec - tv[0].tv_nsec)/1000; + + e_us = ms[i]*1000; + + diff = e_us - tn_us; + + print_line("Erlang time = %ld us; ethr_time_now = %ld us; diff %ld us", + e_us, tn_us, diff); + + if (max_abs_diff < abs((int) diff)) { + max_abs_diff = abs((int) diff); + } + + ASSERT(e_us - TNT_MAX_TIME_DIFF <= tn_us); + ASSERT(tn_us <= e_us + TNT_MAX_TIME_DIFF); + } + + print_line("Max absolute diff = %d us", max_abs_diff); + succeed("Max absolute diff = %d us", max_abs_diff); +} + +/* + * The cond wait test case. + * + * Tests ethr_cond_wait with ethr_cond_signal and ethr_cond_broadcast. + */ + + +static ethr_mutex cwt_mutex = ETHR_MUTEX_INITER; +static ethr_cond cwt_cond = ETHR_COND_INITER; +static int cwt_counter; + +void * +cwt_thread(void *is_timedwait_test_ptr) +{ + int use_timedwait = *((int *) is_timedwait_test_ptr); + int res; + + res = ethr_mutex_lock(&cwt_mutex); + ASSERT(res == 0); + + if (use_timedwait) { + ethr_timeval tv; + res = ethr_time_now(&tv); + ASSERT(res == 0); + tv.tv_sec += 3600; /* Make sure we won't time out */ + + do { + res = ethr_cond_timedwait(&cwt_cond, &cwt_mutex, &tv); + } while (res == EINTR); + ASSERT(res == 0); + } + else { + do { + res = ethr_cond_wait(&cwt_cond, &cwt_mutex); + } while (res == EINTR); + ASSERT(res == 0); + } + + cwt_counter++; + + res = ethr_mutex_unlock(&cwt_mutex); + ASSERT(res == 0); + + return NULL; +} + +static void +cond_wait_test(int is_timedwait_test) +{ + int do_restart = !is_timedwait_test; + ethr_tid tid1, tid2; + int res; + + if (!is_timedwait_test) + print_line("Running test with statically initialized mutex and cond"); + + restart: + /* Wake with signal */ + + cwt_counter = 0; + + res = ethr_thr_create(&tid1, cwt_thread, (void *) &is_timedwait_test, NULL); + ASSERT(res == 0); + res = ethr_thr_create(&tid2, cwt_thread, (void *) &is_timedwait_test, NULL); + ASSERT(res == 0); + + do_sleep(1); /* Make sure threads waits on cond var */ + + res = ethr_mutex_lock(&cwt_mutex); + ASSERT(res == 0); + + res = ethr_cond_signal(&cwt_cond); /* Wake one thread */ + ASSERT(res == 0); + + do_sleep(1); /* Make sure awakened thread waits on mutex */ + + ASSERT(cwt_counter == 0); + + res = ethr_mutex_unlock(&cwt_mutex); + ASSERT(res == 0); + + do_sleep(1); /* Let awakened thread proceed */ + + res = ethr_mutex_lock(&cwt_mutex); + ASSERT(res == 0); + + ASSERT(cwt_counter == 1); + + res = ethr_cond_signal(&cwt_cond); /* Wake the other thread */ + ASSERT(res == 0); + + do_sleep(1); /* Make sure awakened thread waits on mutex */ + + ASSERT(cwt_counter == 1); + + res = ethr_mutex_unlock(&cwt_mutex); + ASSERT(res == 0); + + do_sleep(1); /* Let awakened thread proceed */ + + res = ethr_mutex_lock(&cwt_mutex); + ASSERT(res == 0); + + ASSERT(cwt_counter == 2); + + res = ethr_mutex_unlock(&cwt_mutex); + ASSERT(res == 0); + + res = ethr_thr_join(tid1, NULL); + ASSERT(res == 0); + + res = ethr_thr_join(tid2, NULL); + ASSERT(res == 0); + + + /* Wake with broadcast */ + + cwt_counter = 0; + + res = ethr_thr_create(&tid1, cwt_thread, (void *) &is_timedwait_test, NULL); + ASSERT(res == 0); + res = ethr_thr_create(&tid2, cwt_thread, (void *) &is_timedwait_test, NULL); + ASSERT(res == 0); + + do_sleep(1); /* Make sure threads waits on cond var */ + + res = ethr_mutex_lock(&cwt_mutex); + ASSERT(res == 0); + + res = ethr_cond_broadcast(&cwt_cond); /* Wake the threads */ + ASSERT(res == 0); + + do_sleep(1); /* Make sure awakened threads wait on mutex */ + + ASSERT(cwt_counter == 0); + + res = ethr_mutex_unlock(&cwt_mutex); + ASSERT(res == 0); + + do_sleep(1); /* Let awakened threads proceed */ + + res = ethr_mutex_lock(&cwt_mutex); + ASSERT(res == 0); + + ASSERT(cwt_counter == 2); + + res = ethr_mutex_unlock(&cwt_mutex); + ASSERT(res == 0); + + res = ethr_thr_join(tid1, NULL); + ASSERT(res == 0); + + res = ethr_thr_join(tid2, NULL); + ASSERT(res == 0); + + res = ethr_mutex_destroy(&cwt_mutex); + ASSERT(res == 0); + res = ethr_cond_destroy(&cwt_cond); + ASSERT(res == 0); + + if (do_restart) { + do_restart = 0; + res = ethr_mutex_init(&cwt_mutex); + ASSERT(res == 0); + res = ethr_cond_init(&cwt_cond); + ASSERT(res == 0); + print_line("Running test with dynamically initialized mutex and cond"); + goto restart; + } +} + +/* + * The cond timedwait test case. + * + * Tests ethr_cond_timedwait with ethr_cond_signal and ethr_cond_broadcast. + */ + +#define CTWT_MAX_TIME_DIFF 100000 + +static long +ctwt_check_timeout(long to) +{ + int res; + ethr_timeval tva, tvb; + long diff, abs_diff; + + res = ethr_time_now(&tva); + ASSERT(res == 0); + + tva.tv_sec += to / 1000; + tva.tv_nsec += (to % 1000) * 1000000; + if (tva.tv_nsec >= 1000000000) { + tva.tv_sec++; + tva.tv_nsec -= 1000000000; + ASSERT(tva.tv_nsec < 1000000000); + } + + do { + res = ethr_cond_timedwait(&cwt_cond, &cwt_mutex, &tva); + } while (res == EINTR); + ASSERT(res == ETIMEDOUT); + + res = ethr_time_now(&tvb); + ASSERT(res == 0); + + diff = (tvb.tv_sec - tva.tv_sec) * 1000000; + diff += (tvb.tv_nsec - tva.tv_nsec)/1000; + + print("Timeout=%ld; ", to); + print("tva.tv_sec=%ld tva.tv_nsec=%ld; ", tva.tv_sec, tva.tv_nsec); + print("tvb.tv_sec=%ld tvb.tv_nsec=%ld; ", tvb.tv_sec, tvb.tv_nsec); + print_line("diff (tvb - tva) = %ld us", diff); + + abs_diff = (long) abs((int) diff); + + ASSERT(CTWT_MAX_TIME_DIFF >= abs_diff); + return abs_diff; +} + +static void +cond_timedwait_test(void) +{ + int do_restart = 1; + long abs_diff, max_abs_diff = 0; + int res; + +#define CTWT_UPD_MAX_DIFF if (abs_diff > max_abs_diff) max_abs_diff = abs_diff; + + print_line("Running test with statically initialized mutex and cond"); + + print_line("CTWT_MAX_TIME_DIFF=%d", CTWT_MAX_TIME_DIFF); + + restart: + + res = ethr_mutex_lock(&cwt_mutex); + ASSERT(res == 0); + + abs_diff = ctwt_check_timeout(300); + CTWT_UPD_MAX_DIFF; + abs_diff = ctwt_check_timeout(700); + CTWT_UPD_MAX_DIFF; + abs_diff = ctwt_check_timeout(1000); + CTWT_UPD_MAX_DIFF; + abs_diff = ctwt_check_timeout(2300); + CTWT_UPD_MAX_DIFF; + abs_diff = ctwt_check_timeout(5100); + CTWT_UPD_MAX_DIFF; + + res = ethr_mutex_unlock(&cwt_mutex); + ASSERT(res == 0); + + cond_wait_test(1); + + if (do_restart) { + do_restart = 0; + res = ethr_mutex_init(&cwt_mutex); + ASSERT(res == 0); + res = ethr_cond_init(&cwt_cond); + ASSERT(res == 0); + print_line("Running test with dynamically initialized mutex and cond"); + goto restart; + } + + print_line("Max absolute diff = %d us", max_abs_diff); + succeed("Max absolute diff = %d us", max_abs_diff); + +#undef CTWT_UPD_MAX_DIFF +} + +/* + * The broadcast test case. + * + * Tests that a ethr_cond_broadcast really wakes up all waiting threads. + */ + +#define BCT_THREADS 64 +#define BCT_NO_OF_WAITS 100 + +static int bct_woken = 0; +static int bct_waiting = 0; +static int bct_done = 0; +static ethr_mutex bct_mutex = ETHR_MUTEX_INITER; +static ethr_cond bct_cond = ETHR_COND_INITER; +static ethr_cond bct_cntrl_cond = ETHR_COND_INITER; + + +static void * +bct_thread(void *unused) +{ + int res; + + res = ethr_mutex_lock(&bct_mutex); + ASSERT(res == 0); + + while (!bct_done) { + + bct_waiting++; + if (bct_waiting == BCT_THREADS) { + res = ethr_cond_signal(&bct_cntrl_cond); + ASSERT(res == 0); + } + do { + res = ethr_cond_wait(&bct_cond, &bct_mutex); + } while (res == EINTR); + ASSERT(res == 0); + bct_woken++; + if (bct_woken == BCT_THREADS) { + res = ethr_cond_signal(&bct_cntrl_cond); + ASSERT(res == 0); + } + + } + + res = ethr_mutex_unlock(&bct_mutex); + ASSERT(res == 0); + + return NULL; +} + +static void +broadcast_test(void) +{ + int res, i; + ethr_tid tid[BCT_THREADS]; + + for (i = 0; i < BCT_THREADS; i++) { + res = ethr_thr_create(&tid[i], bct_thread, NULL, NULL); + ASSERT(res == 0); + + } + + res = ethr_mutex_lock(&bct_mutex); + ASSERT(res == 0); + + for (i = 0; i < BCT_NO_OF_WAITS; i++) { + + while (bct_waiting != BCT_THREADS) { + res = ethr_cond_wait(&bct_cntrl_cond, &bct_mutex); + ASSERT(res == 0 || res == EINTR); + } + + bct_waiting = 0; + bct_woken = 0; + + /* Wake all threads */ + res = ethr_cond_broadcast(&bct_cond); + ASSERT(res == 0); + + while (bct_woken != BCT_THREADS) { + res = ethr_cond_wait(&bct_cntrl_cond, &bct_mutex); + ASSERT(res == 0 || res == EINTR); + } + + } + + bct_done = 1; + + /* Wake all threads */ + res = ethr_cond_broadcast(&bct_cond); + ASSERT(res == 0); + + res = ethr_mutex_unlock(&bct_mutex); + ASSERT(res == 0); + + for (i = 0; i < BCT_THREADS - 1; i++) { + res = ethr_thr_join(tid[i], NULL); + ASSERT(res == 0); + } + + res = ethr_mutex_destroy(&bct_mutex); + ASSERT(res == 0); + res = ethr_cond_destroy(&bct_cntrl_cond); + ASSERT(res == 0); + res = ethr_cond_destroy(&bct_cond); + ASSERT(res == 0); + +} + +/* + * The detached thread test case. + * + * Tests detached threads. + */ + +#define DT_THREADS (50*1024) +#define DT_BATCH_SIZE 64 + +static ethr_mutex dt_mutex = ETHR_MUTEX_INITER; +static ethr_cond dt_cond = ETHR_COND_INITER; +static int dt_count; +static int dt_limit; + +static void * +dt_thread(void *unused) +{ + int res; + + res = ethr_mutex_lock(&dt_mutex); + ASSERT(res == 0); + + dt_count++; + + if (dt_count >= dt_limit) + ethr_cond_signal(&dt_cond); + + res = ethr_mutex_unlock(&dt_mutex); + ASSERT(res == 0); + + return NULL; +} + +static void +detached_thread_test(void) +{ + ethr_thr_opts thr_opts = ETHR_THR_OPTS_DEFAULT_INITER; + ethr_tid tid[DT_BATCH_SIZE]; + int i, j, res; + + thr_opts.detached = 1; + dt_count = 0; + dt_limit = 0; + + for (i = 0; i < DT_THREADS/DT_BATCH_SIZE; i++) { + + dt_limit += DT_BATCH_SIZE; + + for (j = 0; j < DT_BATCH_SIZE; j++) { + res = ethr_thr_create(&tid[j], dt_thread, NULL, &thr_opts); + ASSERT(res == 0); + } + + res = ethr_mutex_lock(&dt_mutex); + ASSERT(res == 0); + while (dt_count < dt_limit) { + res = ethr_cond_wait(&dt_cond, &dt_mutex); + ASSERT(res == 0 || res == EINTR); + } + res = ethr_mutex_unlock(&dt_mutex); + ASSERT(res == 0); + + print_line("dt_count = %d", dt_count); + } + do_sleep(1); +} + + + +/* + * The max threads test case. + * + * Tests + */ +#define MTT_TIMES 10 + +static int mtt_terminate; +static ethr_mutex mtt_mutex = ETHR_MUTEX_INITER; +static ethr_cond mtt_cond = ETHR_COND_INITER; +static char mtt_string[22*MTT_TIMES]; /* 22 is enough for ", %d" */ + + +void *mtt_thread(void *unused) +{ + int res; + + res = ethr_mutex_lock(&mtt_mutex); + ASSERT(res == 0); + + while (!mtt_terminate) { + res = ethr_cond_wait(&mtt_cond, &mtt_mutex); + ASSERT(res == 0 || res == EINTR); + } + + res = ethr_mutex_unlock(&mtt_mutex); + ASSERT(res == 0); + + return NULL; +} + + +static int +mtt_create_join_threads(void) +{ + int no_tids = 100, ix = 0, res = 0, no_threads; + ethr_tid *tids; + + mtt_terminate = 0; + + tids = (ethr_tid *) malloc(sizeof(ethr_tid)*no_tids); + ASSERT(tids); + + print_line("Beginning to create threads"); + + while (1) { + if (ix >= no_tids) { + no_tids += 100; + tids = (ethr_tid *) realloc((void *)tids, sizeof(ethr_tid)*no_tids); + ASSERT(tids); + } + res = ethr_thr_create(&tids[ix], mtt_thread, NULL, NULL); + if (res != 0) + break; + ix++; + } while (res == 0); + + no_threads = ix; + + print_line("%d = ethr_thr_create()", res); + print_line("Number of created threads: %d", no_threads); + + res = ethr_mutex_lock(&mtt_mutex); + ASSERT(res == 0); + + mtt_terminate = 1; + + res = ethr_cond_broadcast(&mtt_cond); + ASSERT(res == 0); + + res = ethr_mutex_unlock(&mtt_mutex); + ASSERT(res == 0); + + while (ix) { + res = ethr_thr_join(tids[--ix], NULL); + ASSERT(res == 0); + } + + print_line("All created threads terminated"); + + free((void *) tids); + + return no_threads; + +} + +static void +max_threads_test(void) +{ + int no_threads[MTT_TIMES], i, up, down, eq; + char *str; + + for (i = 0; i < MTT_TIMES; i++) { + no_threads[i] = mtt_create_join_threads(); + } + + str = &mtt_string[0]; + eq = up = down = 0; + for (i = 0; i < MTT_TIMES; i++) { + if (i == 0) { + str += sprintf(str, "%d", no_threads[i]); + continue; + } + + str += sprintf(str, ", %d", no_threads[i]); + + if (no_threads[i] < no_threads[i-1]) + down++; + else if (no_threads[i] > no_threads[i-1]) + up++; + else + eq++; + } + + print_line("Max created threads: %s", mtt_string); + + /* We fail if the no of threads we are able to create constantly decrease */ + ASSERT(!down || up || eq); + + succeed("Max created threads: %s", mtt_string); + +} + + +/* + * The forksafety test case. + * + * Tests forksafety. + */ +#ifdef __WIN32__ +#define NO_FORK_PRESENT +#endif + +#ifndef NO_FORK_PRESENT + +static ethr_mutex ft_test_inner_mutex = ETHR_MUTEX_INITER; +static ethr_mutex ft_test_outer_mutex = ETHR_MUTEX_INITER; +static ethr_mutex ft_go_mutex = ETHR_MUTEX_INITER; +static ethr_cond ft_go_cond = ETHR_COND_INITER; +static int ft_go; +static int ft_have_forked; + +static void * +ft_thread(void *unused) +{ + int res; + + res = ethr_mutex_lock(&ft_test_outer_mutex); + ASSERT(res == 0); + + res = ethr_mutex_lock(&ft_go_mutex); + ASSERT(res == 0); + + ft_go = 1; + res = ethr_cond_signal(&ft_go_cond); + ASSERT(res == 0); + res = ethr_mutex_unlock(&ft_go_mutex); + ASSERT(res == 0); + + do_sleep(1); + ASSERT(!ft_have_forked); + + res = ethr_mutex_lock(&ft_test_inner_mutex); + ASSERT(res == 0); + + res = ethr_mutex_unlock(&ft_test_inner_mutex); + ASSERT(res == 0); + + do_sleep(1); + ASSERT(!ft_have_forked); + + res = ethr_mutex_unlock(&ft_test_outer_mutex); + ASSERT(res == 0); + + do_sleep(1); + ASSERT(ft_have_forked); + + + return NULL; +} + +#endif /* #ifndef NO_FORK_PRESENT */ + +static void +forksafety_test(void) +{ +#ifdef NO_FORK_PRESENT + skip("No fork() present; nothing to test"); +#elif defined(DEBUG) + skip("Doesn't work in debug build"); +#else + char snd_msg[] = "ok, bye!"; + char rec_msg[sizeof(snd_msg)*2]; + ethr_tid tid; + int res; + int fds[2]; + + + res = ethr_mutex_set_forksafe(&ft_test_inner_mutex); + if (res == ENOTSUP) { + skip("Forksafety not supported on this platform!"); + } + ASSERT(res == 0); + res = ethr_mutex_set_forksafe(&ft_test_outer_mutex); + ASSERT(res == 0); + + + res = pipe(fds); + ASSERT(res == 0); + + ft_go = 0; + ft_have_forked = 0; + + res = ethr_mutex_lock(&ft_go_mutex); + ASSERT(res == 0); + + res = ethr_thr_create(&tid, ft_thread, NULL, NULL); + ASSERT(res == 0); + + do { + res = ethr_cond_wait(&ft_go_cond, &ft_go_mutex); + } while (res == EINTR || !ft_go); + ASSERT(res == 0); + + res = ethr_mutex_unlock(&ft_go_mutex); + ASSERT(res == 0); + + res = fork(); + ft_have_forked = 1; + if (res == 0) { + close(fds[0]); + res = ethr_mutex_lock(&ft_test_outer_mutex); + if (res != 0) + _exit(1); + res = ethr_mutex_lock(&ft_test_inner_mutex); + if (res != 0) + _exit(1); + res = ethr_mutex_unlock(&ft_test_inner_mutex); + if (res != 0) + _exit(1); + res = ethr_mutex_unlock(&ft_test_outer_mutex); + if (res != 0) + _exit(1); + + res = ethr_mutex_destroy(&ft_test_inner_mutex); + if (res != 0) + _exit(1); + res = ethr_mutex_destroy(&ft_test_outer_mutex); + if (res != 0) + _exit(1); + + res = (int) write(fds[1], (void *) snd_msg, sizeof(snd_msg)); + if (res != sizeof(snd_msg)) + _exit(1); + close(fds[1]); + _exit(0); + } + ASSERT(res > 0); + close(fds[1]); + + res = (int) read(fds[0], (void *) rec_msg, sizeof(rec_msg)); + ASSERT(res == (int) sizeof(snd_msg)); + ASSERT(strcmp(snd_msg, rec_msg) == 0); + + close(fds[0]); +#endif +} + + +/* + * The vfork test case. + * + * Tests vfork with threads. + */ + +#ifdef __WIN32__ +#define NO_VFORK_PRESENT +#endif + +#ifndef NO_VFORK_PRESENT + +#undef vfork + +static ethr_mutex vt_mutex = ETHR_MUTEX_INITER; + +static void * +vt_thread(void *vprog) +{ + char *prog = (char *) vprog; + int res; + char snd_msg[] = "ok, bye!"; + char rec_msg[sizeof(snd_msg)*2]; + int fds[2]; + char closefd[20]; + char writefd[20]; + + res = pipe(fds); + ASSERT(res == 0); + + res = sprintf(closefd, "%d", fds[0]); + ASSERT(res <= 20); + res = sprintf(writefd, "%d", fds[1]); + ASSERT(res <= 20); + + print("parent: About to vfork and execute "); + print("execlp(\"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\", \"%s\", NULL)", + prog, prog, "vfork", "exec", snd_msg, closefd, writefd); + print_line(" in child"); + res = vfork(); + if (res == 0) { + execlp(prog, prog, "vfork", "exec", snd_msg, closefd, writefd, NULL); + _exit(1); + } + ASSERT(res > 0); + + print_line("parent: I'm back"); + + close(fds[1]); + + res = (int) read(fds[0], (void *) rec_msg, sizeof(rec_msg)); + print_line("parent: %d = read()", res); + print_line("parent: rec_msg=\"%s\"", rec_msg); + ASSERT(res == (int) sizeof(snd_msg)); + ASSERT(strcmp(snd_msg, rec_msg) == 0); + + close(fds[0]); + + return NULL; +} + +#endif /* #ifndef NO_VFORK_PRESENT */ + +static void +vfork_test(int argc, char *argv[]) +{ +#ifdef NO_VFORK_PRESENT + skip("No vfork() present; nothing to test"); +#else + int res; + ethr_tid tid; + + if (argc == 6 && strcmp("exec", argv[2]) == 0) { + /* We are child after vfork() and execlp() ... */ + + char *snd_msg; + int closefd; + int writefd; + + snd_msg = argv[3]; + closefd = atoi(argv[4]); + writefd = atoi(argv[5]); + + print_line("child: snd_msg=\"%s\"; closefd=%d writefd=%d", + snd_msg, closefd, writefd); + + close(closefd); + + res = (int) write(writefd, (void *) snd_msg, strlen(snd_msg)+1); + print_line("child: %d = write()", res); + if (res != strlen(snd_msg)+1) + exit(1); + close(writefd); + print_line("child: bye"); + exit(0); + } + ASSERT(argc == 2); + + res = ethr_mutex_set_forksafe(&vt_mutex); + ASSERT(res == 0 || res == ENOTSUP); + res = ethr_mutex_lock(&vt_mutex); + ASSERT(res == 0); + + res = ethr_thr_create(&tid, vt_thread, (void *) argv[0], NULL); + ASSERT(res == 0); + + do_sleep(1); + + res = ethr_mutex_unlock(&vt_mutex); + ASSERT(res == 0); + + res = ethr_thr_join(tid, NULL); + ASSERT(res == 0); + + res = ethr_mutex_destroy(&vt_mutex); + ASSERT(res == 0); +#endif +} + + +/* + * The tsd test case. + * + * Tests thread specific data. + */ + +#define TT_THREADS 10 +static ethr_tsd_key tt_key; + +static void * +tt_thread(void *arg) +{ + int res = ethr_tsd_set(tt_key, arg); + ASSERT(res == 0); + return ethr_tsd_get(tt_key); +} + +static void +tsd_test(void) +{ + void *tres; + int i, res; + ethr_tid tid[TT_THREADS]; + int values[TT_THREADS]; + + res = ethr_tsd_key_create(&tt_key); + ASSERT(res == 0); + + for (i = 1; i < TT_THREADS; i++) { + res = ethr_thr_create(&tid[i], tt_thread, (void *) &values[i], NULL); + ASSERT(res == 0); + } + + tres = tt_thread((void *) &values[0]); + ASSERT(tres == (void *) &values[0]); + + for (i = 1; i < TT_THREADS; i++) { + res = ethr_thr_join(tid[i], &tres); + ASSERT(res == 0); + ASSERT(tres == (void *) &values[i]); + } + + res = ethr_tsd_key_delete(tt_key); + ASSERT(res == 0); +} + + +/* + * The spinlock test case. + * + * Tests spinlocks. + */ + +static ethr_spinlock_t st_spinlock; +static int st_data; + +void * +st_thread(void *unused) +{ + int res; + + print_line("Aux thread tries to lock spinlock"); + res = ethr_spin_lock(&st_spinlock); + ASSERT(res == 0); + print_line("Aux thread locked spinlock"); + + ASSERT(st_data == 0); + + st_data = 1; + print_line("Aux thread wrote"); + + print_line("Aux thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Aux thread woke up"); + + ASSERT(st_data == 1); + + res = ethr_spin_unlock(&st_spinlock); + ASSERT(res == 0); + print_line("Aux thread unlocked spinlock"); + + return NULL; +} + + +static void +spinlock_test(void) +{ + int res; + ethr_tid tid; + + print_line("Trying to initialize spinlock"); + res = ethr_spinlock_init(&st_spinlock); + ASSERT(res == 0); + print_line("Initialized spinlock"); + + st_data = 0; + + print_line("Main thread tries to lock spinlock"); + res = ethr_spin_lock(&st_spinlock); + ASSERT(res == 0); + print_line("Main thread locked spinlock"); + + ASSERT(st_data == 0); + + print_line("Main thread about to create aux thread"); + res = ethr_thr_create(&tid, st_thread, NULL, NULL); + ASSERT(res == 0); + print_line("Main thread created aux thread"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(st_data == 0); + + res = ethr_spin_unlock(&st_spinlock); + ASSERT(res == 0); + print_line("Main thread unlocked spinlock"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + print_line("Main thread tries to lock spinlock"); + res = ethr_spin_lock(&st_spinlock); + ASSERT(res == 0); + print_line("Main thread locked spinlock"); + + ASSERT(st_data == 1); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(st_data == 1); + + res = ethr_spin_unlock(&st_spinlock); + ASSERT(res == 0); + print_line("Main thread unlocked spinlock"); + + res = ethr_thr_join(tid, NULL); + ASSERT(res == 0); + print_line("Main thread joined aux thread"); + + res = ethr_spinlock_destroy(&st_spinlock); + ASSERT(res == 0); + print_line("Main thread destroyed spinlock"); + +} + + +/* + * The rwspinlock test case. + * + * Tests rwspinlocks. + */ + +static ethr_rwlock_t rwst_rwspinlock; +static int rwst_data; + +void * +rwst_thread(void *unused) +{ + int data; + int res; + + print_line("Aux thread tries to read lock rwspinlock"); + res = ethr_read_lock(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Aux thread read locked rwspinlock"); + + ASSERT(rwst_data == 4711); + + print_line("Aux thread tries to read unlock rwspinlock"); + res = ethr_read_unlock(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Aux thread read unlocked rwspinlock"); + + print_line("Aux thread tries to write lock rwspinlock"); + res = ethr_write_lock(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Aux thread write locked rwspinlock"); + + data = ++rwst_data; + print_line("Aux thread wrote"); + + print_line("Aux thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Aux thread woke up"); + + ASSERT(rwst_data == data); + ++rwst_data; + + print_line("Aux thread tries to write unlock rwspinlock"); + res = ethr_write_unlock(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Aux thread write unlocked rwspinlock"); + + return NULL; +} + + +static void +rwspinlock_test(void) +{ + int data; + int res; + ethr_tid tid; + + print_line("Trying to initialize rwspinlock"); + res = ethr_rwlock_init(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Initialized rwspinlock"); + + rwst_data = 4711; + + print_line("Main thread tries to read lock rwspinlock"); + res = ethr_read_lock(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Main thread read locked rwspinlock"); + + ASSERT(rwst_data == 4711); + + print_line("Main thread about to create aux thread"); + res = ethr_thr_create(&tid, rwst_thread, NULL, NULL); + ASSERT(res == 0); + print_line("Main thread created aux thread"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(rwst_data == 4711); + + print_line("Main thread tries to read unlock rwspinlock"); + res = ethr_read_unlock(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Main thread read unlocked rwspinlock"); + + print_line("Main thread tries to write lock rwspinlock"); + res = ethr_write_lock(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Main thread write locked rwspinlock"); + + data = ++rwst_data; + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(rwst_data == data); + ++rwst_data; + + print_line("Main thread tries to write unlock rwspinlock"); + res = ethr_write_unlock(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Main thread write unlocked rwspinlock"); + + res = ethr_thr_join(tid, NULL); + ASSERT(res == 0); + print_line("Main thread joined aux thread"); + + res = ethr_rwlock_destroy(&rwst_rwspinlock); + ASSERT(res == 0); + print_line("Main thread destroyed rwspinlock"); + +} + + +/* + * The rwmutex test case. + * + * Tests rwmutexes. + */ + +static ethr_rwmutex rwmt_rwmutex; +static int rwmt_data; + +void * +rwmt_thread(void *unused) +{ + int data; + int res; + + print_line("Aux thread tries to read lock rwmutex"); + res = ethr_rwmutex_rlock(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Aux thread read locked rwmutex"); + + ASSERT(rwmt_data == 4711); + + print_line("Aux thread tries to read unlock rwmutex"); + res = ethr_rwmutex_runlock(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Aux thread read unlocked rwmutex"); + + print_line("Aux thread tries to write lock rwmutex"); + res = ethr_rwmutex_rwlock(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Aux thread write locked rwmutex"); + + data = ++rwmt_data; + print_line("Aux thread wrote"); + + print_line("Aux thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Aux thread woke up"); + + ASSERT(rwmt_data == data); + ++rwmt_data; + + print_line("Aux thread tries to write unlock rwmutex"); + res = ethr_rwmutex_rwunlock(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Aux thread write unlocked rwmutex"); + + return NULL; +} + + +static void +rwmutex_test(void) +{ + int data; + int res; + ethr_tid tid; + + print_line("Trying to initialize rwmutex"); + res = ethr_rwmutex_init(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Initialized rwmutex"); + + rwmt_data = 4711; + + print_line("Main thread tries to read lock rwmutex"); + res = ethr_rwmutex_rlock(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Main thread read locked rwmutex"); + + ASSERT(rwmt_data == 4711); + + print_line("Main thread about to create aux thread"); + res = ethr_thr_create(&tid, rwmt_thread, NULL, NULL); + ASSERT(res == 0); + print_line("Main thread created aux thread"); + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(rwmt_data == 4711); + + print_line("Main thread tries to read unlock rwmutex"); + res = ethr_rwmutex_runlock(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Main thread read unlocked rwmutex"); + + print_line("Main thread tries to write lock rwmutex"); + res = ethr_rwmutex_rwlock(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Main thread write locked rwmutex"); + + data = ++rwmt_data; + + print_line("Main thread goes to sleep for 1 second"); + do_sleep(1); + print_line("Main thread woke up"); + + ASSERT(rwmt_data == data); + ++rwmt_data; + + print_line("Main thread tries to write unlock rwmutex"); + res = ethr_rwmutex_rwunlock(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Main thread write unlocked rwmutex"); + + res = ethr_thr_join(tid, NULL); + ASSERT(res == 0); + print_line("Main thread joined aux thread"); + + res = ethr_rwmutex_destroy(&rwmt_rwmutex); + ASSERT(res == 0); + print_line("Main thread destroyed rwmutex"); + +} + +/* + * The atomic test case. + * + * Tests atomics. + */ + +#define AT_THREADS 4 +#define AT_ITER 10000 + +long at_set_val, at_rm_val, at_max_val; + +static ethr_atomic_t at_ready; +static ethr_atomic_t at_go; +static ethr_atomic_t at_done; +static ethr_atomic_t at_data; + +void * +at_thread(void *unused) +{ + int res, i; + long val, go; + + + res = ethr_atomic_inctest(&at_ready, &val); + ASSERT(res == 0); + ASSERT(val > 0); + ASSERT(val <= AT_THREADS); + + do { + res = ethr_atomic_read(&at_go, &go); + ASSERT(res == 0); + } while (!go); + + for (i = 0; i < AT_ITER; i++) { + res = ethr_atomic_or_old(&at_data, at_set_val, &val); + ASSERT(res == 0); + ASSERT(val >= (i == 0 ? 0 : at_set_val) + (long) 4711); + ASSERT(val <= at_max_val); + + res = ethr_atomic_and_old(&at_data, ~at_rm_val, &val); + ASSERT(res == 0); + ASSERT(val >= at_set_val + (long) 4711); + ASSERT(val <= at_max_val); + + res = ethr_atomic_read(&at_data, &val); + ASSERT(res == 0); + ASSERT(val >= at_set_val + (long) 4711); + ASSERT(val <= at_max_val); + + res = ethr_atomic_inctest(&at_data, &val); + ASSERT(res == 0); + ASSERT(val > at_set_val + (long) 4711); + ASSERT(val <= at_max_val); + + res = ethr_atomic_dectest(&at_data, &val); + ASSERT(res == 0); + ASSERT(val >= at_set_val + (long) 4711); + ASSERT(val <= at_max_val); + + res = ethr_atomic_inc(&at_data); + ASSERT(res == 0); + + res = ethr_atomic_dec(&at_data); + ASSERT(res == 0); + + res = ethr_atomic_addtest(&at_data, (long) 4711, &val); + ASSERT(res == 0); + ASSERT(val >= at_set_val + (long) 2*4711); + ASSERT(val <= at_max_val); + + res = ethr_atomic_add(&at_data, (long) -4711); + ASSERT(res == 0); + ASSERT(val >= at_set_val + (long) 4711); + ASSERT(val <= at_max_val); + } + + res = ethr_atomic_inc(&at_done); + ASSERT(res == 0); + return NULL; +} + + +static void +atomic_test(void) +{ + long data_init, data_final, val; + int res, i; + ethr_tid tid[AT_THREADS]; + ethr_thr_opts thr_opts = ETHR_THR_OPTS_DEFAULT_INITER; + + if (sizeof(long) > 4) { + at_rm_val = ((long) 1) << 57; + at_set_val = ((long) 1) << 60; + } + else { + at_rm_val = ((long) 1) << 27; + at_set_val = ((long) 1) << 30; + } + + at_max_val = at_set_val + at_rm_val + ((long) AT_THREADS + 1) * 4711; + data_init = at_rm_val + (long) 4711; + data_final = at_set_val + (long) 4711; + + thr_opts.detached = 1; + + print_line("Initializing"); + res = ethr_atomic_init(&at_ready, 0); + ASSERT(res == 0); + res = ethr_atomic_init(&at_go, 0); + ASSERT(res == 0); + res = ethr_atomic_init(&at_done, data_init); + ASSERT(res == 0); + res = ethr_atomic_init(&at_data, data_init); + ASSERT(res == 0); + + res = ethr_atomic_read(&at_data, &val); + ASSERT(res == 0); + ASSERT(val == data_init); + res = ethr_atomic_set(&at_done, 0); + ASSERT(res == 0); + res = ethr_atomic_read(&at_done, &val); + ASSERT(res == 0); + ASSERT(val == 0); + + print_line("Creating threads"); + for (i = 0; i < AT_THREADS; i++) { + res = ethr_thr_create(&tid[i], at_thread, NULL, &thr_opts); + ASSERT(res == 0); + } + + print_line("Waiting for threads to ready up"); + do { + res = ethr_atomic_read(&at_ready, &val); + ASSERT(res == 0); + ASSERT(val >= 0); + ASSERT(val <= AT_THREADS); + } while (val != AT_THREADS); + + print_line("Letting threads loose"); + res = ethr_atomic_xchg(&at_go, 17, &val); + ASSERT(res == 0); + ASSERT(val == 0); + res = ethr_atomic_read(&at_go, &val); + ASSERT(res == 0); + ASSERT(val == 17); + + + print_line("Waiting for threads to finish"); + do { + res = ethr_atomic_read(&at_done, &val); + ASSERT(res == 0); + ASSERT(val >= 0); + ASSERT(val <= AT_THREADS); + } while (val != AT_THREADS); + + print_line("Checking result"); + res = ethr_atomic_read(&at_data, &val); + ASSERT(res == 0); + ASSERT(val == data_final); + print_line("Result ok"); + +} + + +/* + * The gate test case. + * + * Tests gates. + */ + +#define GT_THREADS 10 + +static ethr_atomic_t gt_wait1; +static ethr_atomic_t gt_wait2; +static ethr_atomic_t gt_done; + +static ethr_gate gt_gate1; +static ethr_gate gt_gate2; + +void * +gt_thread(void *thr_no) +{ + int no = (int)(long) thr_no; + int swait = no % 2 == 0; + int res; + long done; + + + do { + + res = ethr_atomic_inc(>_wait1); + ASSERT(res == 0); + + if (swait) + res = ethr_gate_swait(>_gate1, INT_MAX); + else + res = ethr_gate_wait(>_gate1); + ASSERT(res == 0); + + res = ethr_atomic_dec(>_wait1); + ASSERT(res == 0); + + res = ethr_atomic_inc(>_wait2); + ASSERT(res == 0); + + if (swait) + res = ethr_gate_swait(>_gate2, INT_MAX); + else + res = ethr_gate_wait(>_gate2); + ASSERT(res == 0); + + res = ethr_atomic_dec(>_wait2); + ASSERT(res == 0); + + res = ethr_atomic_read(>_done, &done); + ASSERT(res == 0); + } while (!done); + return NULL; +} + + +static void +gate_test(void) +{ + long val; + int res, i; + ethr_tid tid[GT_THREADS]; + + print_line("Initializing"); + res = ethr_atomic_init(>_wait1, 0); + ASSERT_EQ(res, 0, "%d"); + res = ethr_atomic_init(>_wait2, 0); + ASSERT_EQ(res, 0, "%d"); + res = ethr_atomic_init(>_done, 0); + ASSERT_EQ(res, 0, "%d"); + res = ethr_gate_init(>_gate1); + ASSERT_EQ(res, 0, "%d"); + res = ethr_gate_init(>_gate2); + ASSERT_EQ(res, 0, "%d"); + + print_line("Creating threads"); + for (i = 0; i < GT_THREADS; i++) { + res = ethr_thr_create(&tid[i], gt_thread, (void *) i, NULL); + ASSERT_EQ(res, 0, "%d"); + } + + print_line("Waiting for threads to ready up"); + do { + res = ethr_atomic_read(>_wait1, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT(0 <= val && val <= GT_THREADS); + } while (val != GT_THREADS); + + print_line("Testing"); + + res = ethr_gate_let_through(>_gate1, 8); + ASSERT_EQ(res, 0, "%d"); + + WAIT_UNTIL_LIM((res = ethr_atomic_read(>_wait2, &val), + (res != 0 || val == 8)), + 60); + + res = ethr_atomic_read(>_wait1, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, GT_THREADS - 8, "%ld"); + + res = ethr_atomic_read(>_wait2, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, 8, "%ld"); + + res = ethr_gate_let_through(>_gate2, 4); + ASSERT_EQ(res, 0, "%d"); + + WAIT_UNTIL_LIM((res = ethr_atomic_read(>_wait2, &val), + (res != 0 || val == 4)), + 60); + + res = ethr_atomic_read(>_wait1, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, GT_THREADS - 4, "%ld"); + + res = ethr_atomic_read(>_wait2, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, 4, "%ld"); + + res = ethr_gate_let_through(>_gate1, GT_THREADS); + ASSERT_EQ(res, 0, "%d"); + + WAIT_UNTIL_LIM((res = ethr_atomic_read(>_wait2, &val), + (res != 0 || val == GT_THREADS)), + 60); + res = ethr_atomic_read(>_wait1, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, 0, "%ld"); + + res = ethr_atomic_read(>_wait2, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, GT_THREADS, "%ld"); + + res = ethr_gate_let_through(>_gate2, GT_THREADS); + ASSERT_EQ(res, 0, "%d"); + + WAIT_UNTIL_LIM((res = ethr_atomic_read(>_wait2, &val), + (res != 0 || val == 4)), + 60); + res = ethr_atomic_read(>_wait1, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, GT_THREADS - 4, "%ld"); + + res = ethr_atomic_read(>_wait2, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, 4, "%ld"); + + res = ethr_atomic_set(>_done, 1); + ASSERT_EQ(res, 0, "%d"); + + res = ethr_gate_let_through(>_gate2, GT_THREADS); + ASSERT_EQ(res, 0, "%d"); + res = ethr_gate_let_through(>_gate1, GT_THREADS - 4); + ASSERT_EQ(res, 0, "%d"); + + WAIT_UNTIL_LIM(((res = ethr_atomic_read(>_wait1, &val)) != 0 + || (val == 0 + && ((res = ethr_atomic_read(>_wait2, &val)) != 0 + || val == 0))), + 60); + + res = ethr_atomic_read(>_wait1, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, 0, "%ld"); + + res = ethr_atomic_read(>_wait2, &val); + ASSERT_EQ(res, 0, "%d"); + ASSERT_EQ(val, 0, "%ld"); + + print_line("Joining threads"); + for (i = 0; i < GT_THREADS; i++) { + res = ethr_thr_join(tid[i], NULL); + ASSERT_EQ(res, 0, "%d"); + } + + res = ethr_gate_destroy(>_gate1); + ASSERT_EQ(res, 0, "%d"); + res = ethr_gate_destroy(>_gate2); + ASSERT_EQ(res, 0, "%d"); + +} + +#endif /* #ifndef ETHR_NO_THREAD_LIB */ + +/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * + * The dispatcher * +\* */ + +int +main(int argc, char *argv[]) +{ + if (argc < 2) + fail("To few arguments for test case"); + +#ifndef ETHR_NO_THREAD_LIB + { + char *testcase; + int res; + + send_my_pid(); + + testcase = argv[1]; + res = ethr_init(NULL); + + if (res != 0) + fail("Failed to initialize the ethread library"); + + if (strcmp(testcase, "create_join_thread") == 0) + create_join_thread_test(); + else if (strcmp(testcase, "equal_tids") == 0) + equal_tids_test(); + else if (strcmp(testcase, "mutex") == 0) + mutex_test(); + else if (strcmp(testcase, "try_lock_mutex") == 0) + try_lock_mutex_test(); + else if (strcmp(testcase, "recursive_mutex") == 0) + recursive_mutex_test(); + else if (strcmp(testcase, "time_now") == 0) + time_now_test(); + else if (strcmp(testcase, "cond_wait") == 0) + cond_wait_test(0); + else if (strcmp(testcase, "cond_timedwait") == 0) + cond_timedwait_test(); + else if (strcmp(testcase, "broadcast") == 0) + broadcast_test(); + else if (strcmp(testcase, "detached_thread") == 0) + detached_thread_test(); + else if (strcmp(testcase, "max_threads") == 0) + max_threads_test(); + else if (strcmp(testcase, "forksafety") == 0) + forksafety_test(); + else if (strcmp(testcase, "vfork") == 0) + vfork_test(argc, argv); + else if (strcmp(testcase, "tsd") == 0) + tsd_test(); + else if (strcmp(testcase, "spinlock") == 0) + spinlock_test(); + else if (strcmp(testcase, "rwspinlock") == 0) + rwspinlock_test(); + else if (strcmp(testcase, "rwmutex") == 0) + rwmutex_test(); + else if (strcmp(testcase, "atomic") == 0) + atomic_test(); + else if (strcmp(testcase, "gate") == 0) + gate_test(); + else + skip("Test case \"%s\" not implemented yet", testcase); + + succeed(NULL); + } +#else /* #ifndef ETHR_NO_THREAD_LIB */ + skip("No ethread library to test"); +#endif /* #ifndef ETHR_NO_THREAD_LIB */ + + return 0; +} |