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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-04 18:07:14 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-04 18:07:14 +0000 |
commit | a175314c3e5827eb193872241446f2f8f5c9d33c (patch) | |
tree | cd3d60ca99ae00829c52a6ca79150a5b6e62528b /unittest/mysys/my_rdtsc-t.c | |
parent | Initial commit. (diff) | |
download | mariadb-10.5-a175314c3e5827eb193872241446f2f8f5c9d33c.tar.xz mariadb-10.5-a175314c3e5827eb193872241446f2f8f5c9d33c.zip |
Adding upstream version 1:10.5.12.upstream/1%10.5.12upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'unittest/mysys/my_rdtsc-t.c')
-rw-r--r-- | unittest/mysys/my_rdtsc-t.c | 230 |
1 files changed, 230 insertions, 0 deletions
diff --git a/unittest/mysys/my_rdtsc-t.c b/unittest/mysys/my_rdtsc-t.c new file mode 100644 index 00000000..81005e9e --- /dev/null +++ b/unittest/mysys/my_rdtsc-t.c @@ -0,0 +1,230 @@ +/* Copyright (c) 2008 MySQL AB, 2009 Sun Microsystems, Inc. + Use is subject to license terms. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; version 2 of the License. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */ + +/* + rdtsc3 -- multi-platform timer code + pgulutzan@mysql.com, 2005-08-29 + modified 2008-11-02 + + When you run rdtsc3, it will print the contents of + "my_timer_info". The display indicates + what timer routine is best for a given platform. + + For example, this is the display on production.mysql.com, + a 2.8GHz Xeon with Linux 2.6.17, gcc 3.3.3: + + cycles nanoseconds microseconds milliseconds ticks +------------- ------------- ------------- ------------- ------------- + 1 11 13 18 17 + 2815019607 1000000000 1000000 1049 102 + 1 1000 1 1 1 + 88 4116 3888 4092 2044 + + The first line shows routines, e.g. 1 = MY_TIMER_ROUTINE_ASM_X86. + The second line shows frequencies, e.g. 2815019607 is nearly 2.8GHz. + The third line shows resolutions, e.g. 1000 = very poor resolution. + The fourth line shows overheads, e.g. ticks takes 2044 cycles. +*/ + +#include "my_global.h" +#include "my_rdtsc.h" +#include "tap.h" + +#define LOOP_COUNT 100 + +MY_TIMER_INFO myt; + +void test_init() +{ + my_timer_init(&myt); + + diag("----- Routine ---------------"); + diag("myt.cycles.routine : %13llu", myt.cycles.routine); + diag("myt.nanoseconds.routine : %13llu", myt.nanoseconds.routine); + diag("myt.microseconds.routine : %13llu", myt.microseconds.routine); + diag("myt.milliseconds.routine : %13llu", myt.milliseconds.routine); + diag("myt.ticks.routine : %13llu", myt.ticks.routine); + + diag("----- Frequency -------------"); + diag("myt.cycles.frequency : %13llu", myt.cycles.frequency); + diag("myt.nanoseconds.frequency : %13llu", myt.nanoseconds.frequency); + diag("myt.microseconds.frequency : %13llu", myt.microseconds.frequency); + diag("myt.milliseconds.frequency : %13llu", myt.milliseconds.frequency); + diag("myt.ticks.frequency : %13llu", myt.ticks.frequency); + + diag("----- Resolution ------------"); + diag("myt.cycles.resolution : %13llu", myt.cycles.resolution); + diag("myt.nanoseconds.resolution : %13llu", myt.nanoseconds.resolution); + diag("myt.microseconds.resolution : %13llu", myt.microseconds.resolution); + diag("myt.milliseconds.resolution : %13llu", myt.milliseconds.resolution); + diag("myt.ticks.resolution : %13llu", myt.ticks.resolution); + + diag("----- Overhead --------------"); + diag("myt.cycles.overhead : %13llu", myt.cycles.overhead); + diag("myt.nanoseconds.overhead : %13llu", myt.nanoseconds.overhead); + diag("myt.microseconds.overhead : %13llu", myt.microseconds.overhead); + diag("myt.milliseconds.overhead : %13llu", myt.milliseconds.overhead); + diag("myt.ticks.overhead : %13llu", myt.ticks.overhead); + + ok(1, "my_timer_init() did not crash"); +} + +void test_cycle() +{ + ulonglong t1= my_timer_cycles(); + ulonglong t2; + int i; + int backward= 0; + int nonzero= 0; + + for (i=0 ; i < LOOP_COUNT ; i++) + { + t2= my_timer_cycles(); + if (t1 >= t2) + backward++; + if (t2 != 0) + nonzero++; + t1= t2; + } + + /* Expect at most 1 backward, the cycle value can overflow */ + ok((backward <= 1), "The cycle timer is strictly increasing"); + + if (myt.cycles.routine != 0) + ok((nonzero != 0), "The cycle timer is implemented"); + else + ok((nonzero == 0), "The cycle timer is not implemented and returns 0"); +} + +void test_nanosecond() +{ + ulonglong t1= my_timer_nanoseconds(); + ulonglong t2; + int i; + int backward= 0; + int nonzero= 0; + + for (i=0 ; i < LOOP_COUNT ; i++) + { + t2= my_timer_nanoseconds(); + if (t1 > t2) + backward++; + if (t2 != 0) + nonzero++; + t1= t2; + } + + ok((backward == 0), "The nanosecond timer is increasing"); + + if (myt.nanoseconds.routine != 0) + ok((nonzero != 0), "The nanosecond timer is implemented"); + else + ok((nonzero == 0), "The nanosecond timer is not implemented and returns 0"); +} + +void test_microsecond() +{ + ulonglong t1= my_timer_microseconds(); + ulonglong t2; + int i; + int backward= 0; + int nonzero= 0; + + for (i=0 ; i < LOOP_COUNT ; i++) + { + t2= my_timer_microseconds(); + if (t1 > t2) + backward++; + if (t2 != 0) + nonzero++; + t1= t2; + } + + ok((backward == 0), "The microsecond timer is increasing"); + + if (myt.microseconds.routine != 0) + ok((nonzero != 0), "The microsecond timer is implemented"); + else + ok((nonzero == 0), "The microsecond timer is not implemented and returns 0"); +} + +void test_millisecond() +{ + ulonglong t1= my_timer_milliseconds(); + ulonglong t2; + int i; + int backward= 0; + int nonzero= 0; + + for (i=0 ; i < LOOP_COUNT ; i++) + { + t2= my_timer_milliseconds(); + if (t1 > t2) + backward++; + if (t2 != 0) + nonzero++; + t1= t2; + } + + ok((backward == 0), "The millisecond timer is increasing"); + + if (myt.milliseconds.routine != 0) + ok((nonzero != 0), "The millisecond timer is implemented"); + else + ok((nonzero == 0), "The millisecond timer is not implemented and returns 0"); +} + +void test_tick() +{ + ulonglong t1= my_timer_ticks(); + ulonglong t2; + int i; + int backward= 0; + int nonzero= 0; + + for (i=0 ; i < LOOP_COUNT ; i++) + { + t2= my_timer_ticks(); + if (t1 > t2) + backward++; + if (t2 != 0) + nonzero++; + t1= t2; + } + + ok((backward == 0), "The tick timer is increasing"); + + if (myt.ticks.routine != 0) + ok((nonzero != 0), "The tick timer is implemented"); + else + ok((nonzero == 0), "The tick timer is not implemented and returns 0"); +} + +int main(int argc __attribute__((unused)), + char ** argv __attribute__((unused))) +{ + plan(11); + + test_init(); + test_cycle(); + test_nanosecond(); + test_microsecond(); + test_millisecond(); + test_tick(); + + return 0; +} + |