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score: Install timecounter according to quality

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This makes it possible to install higher quality timecounter in
plug-and-play systems and helps to override the clock driver provided
timecounter in some test scenarios.
This commit is contained in:
Sebastian Huber
2019-10-01 13:48:27 +02:00
parent 47e5c1d7cd
commit 8d989c56ff
2 changed files with 81 additions and 22 deletions
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2
cpukit/score/src/kern_tc.c
View File

@@ -1394,11 +1394,13 @@ tc_init(struct timecounter *tc)
return; return;
if (tc->tc_quality < 0) if (tc->tc_quality < 0)
return; return;
#endif /* __rtems__ */
if (tc->tc_quality < timecounter->tc_quality) if (tc->tc_quality < timecounter->tc_quality)
return; return;
if (tc->tc_quality == timecounter->tc_quality && if (tc->tc_quality == timecounter->tc_quality &&
tc->tc_frequency < timecounter->tc_frequency) tc->tc_frequency < timecounter->tc_frequency)
return; return;
#ifndef __rtems__
(void)tc->tc_get_timecount(tc); (void)tc->tc_get_timecount(tc);
(void)tc->tc_get_timecount(tc); (void)tc->tc_get_timecount(tc);
#endif /* __rtems__ */ #endif /* __rtems__ */

101
testsuites/sptests/sptimecounter01/init.c
View File

@@ -1,5 +1,5 @@
/* /*
* Copyright (c) 2015 embedded brains GmbH. All rights reserved. * Copyright (c) 2015, 2019 embedded brains GmbH. All rights reserved.
* *
* embedded brains GmbH * embedded brains GmbH
* Dornierstr. 4 * Dornierstr. 4
@@ -29,32 +29,87 @@
const char rtems_test_name[] = "SPTIMECOUNTER 1"; const char rtems_test_name[] = "SPTIMECOUNTER 1";
#define TEST_QUAL 1234
#define TEST_FREQ 1000000
typedef struct { typedef struct {
struct timecounter tc_soft; struct timecounter tc;
u_int tc_soft_counter; uint32_t counter;
struct timecounter tc_2;
uint32_t counter_2;
} test_context; } test_context;
static test_context test_instance; static test_context test_instance;
static uint32_t test_get_timecount_soft(struct timecounter *tc) static uint32_t test_get_timecount(struct timecounter *tc)
{ {
test_context *ctx; test_context *ctx;
ctx = RTEMS_CONTAINER_OF(tc, test_context, tc_soft); ctx = RTEMS_CONTAINER_OF(tc, test_context, tc);
++ctx->tc_soft_counter; ++ctx->counter;
return ctx->tc_soft_counter; return ctx->counter;
}
static uint32_t test_get_timecount_2(struct timecounter *tc)
{
test_context *ctx;
ctx = RTEMS_CONTAINER_OF(tc, test_context, tc_2);
++ctx->counter_2;
return ctx->counter_2;
}
static void test_install(test_context *ctx)
{
struct timecounter *tc;
struct timecounter *tc_2;
uint32_t c;
uint32_t c_2;
tc = &ctx->tc;
tc_2 = &ctx->tc_2;
c = ctx->counter;
c_2 = ctx->counter_2;
tc_2->tc_get_timecount = test_get_timecount_2;
tc_2->tc_counter_mask = 0x0fffffff;
tc_2->tc_frequency = TEST_FREQ - 1;
tc_2->tc_quality = TEST_QUAL;
_Timecounter_Install(tc_2);
assert(ctx->counter == c);
assert(ctx->counter_2 == c_2);
tc_2->tc_get_timecount = test_get_timecount_2;
tc_2->tc_counter_mask = 0x0fffffff;
tc_2->tc_frequency = TEST_FREQ - 1;
tc_2->tc_quality = TEST_QUAL + 1;
_Timecounter_Install(tc_2);
assert(ctx->counter == c + 1);
assert(ctx->counter_2 == c_2 + 1);
tc->tc_get_timecount = test_get_timecount;
tc->tc_counter_mask = 0x0fffffff;
tc->tc_frequency = TEST_FREQ;
tc->tc_quality = TEST_QUAL + 1;
_Timecounter_Install(tc);
assert(ctx->counter == c + 2);
assert(ctx->counter_2 == c_2 + 2);
} }
void boot_card(const char *cmdline) void boot_card(const char *cmdline)
{ {
test_context *ctx = &test_instance; test_context *ctx;
struct timecounter *tc_soft = &ctx->tc_soft; struct timecounter *tc;
uint64_t soft_freq = 1000000;
struct bintime bt; struct bintime bt;
struct timeval tv; struct timeval tv;
struct timespec ts; struct timespec ts;
ctx = &test_instance;
tc = &ctx->tc;
TEST_BEGIN(); TEST_BEGIN();
assert(time(NULL) == TOD_SECONDS_1970_THROUGH_1988); assert(time(NULL) == TOD_SECONDS_1970_THROUGH_1988);
@@ -120,34 +175,36 @@ void boot_card(const char *cmdline)
assert(bt.sec == 1); assert(bt.sec == 1);
assert(bt.frac == 0); assert(bt.frac == 0);
ctx->tc_soft_counter = 0; ctx->counter = 0;
tc_soft->tc_get_timecount = test_get_timecount_soft; tc->tc_get_timecount = test_get_timecount;
tc_soft->tc_counter_mask = 0x0fffffff; tc->tc_counter_mask = 0x0fffffff;
tc_soft->tc_frequency = soft_freq; tc->tc_frequency = TEST_FREQ;
tc_soft->tc_quality = 1234; tc->tc_quality = TEST_QUAL;
_Timecounter_Install(tc_soft); _Timecounter_Install(tc);
assert(ctx->tc_soft_counter == 1); assert(ctx->counter == 1);
rtems_bsd_binuptime(&bt); rtems_bsd_binuptime(&bt);
assert(ctx->tc_soft_counter == 2); assert(ctx->counter == 2);
assert(bt.sec == 1); assert(bt.sec == 1);
assert(bt.frac == 18446744073708); assert(bt.frac == 18446744073708);
ctx->tc_soft_counter = 0xf0000000 | 1; ctx->counter = 0xf0000000 | 1;
rtems_bsd_binuptime(&bt); rtems_bsd_binuptime(&bt);
assert(ctx->tc_soft_counter == (0xf0000000 | 2)); assert(ctx->counter == (0xf0000000 | 2));
assert(bt.sec == 1); assert(bt.sec == 1);
assert(bt.frac == 18446744073708); assert(bt.frac == 18446744073708);
/* Ensure that the fraction overflows and the second remains constant */ /* Ensure that the fraction overflows and the second remains constant */
ctx->tc_soft_counter = (0xf0000000 | 1) + soft_freq; ctx->counter = (0xf0000000 | 1) + TEST_FREQ;
rtems_bsd_binuptime(&bt); rtems_bsd_binuptime(&bt);
assert(ctx->tc_soft_counter == (0xf0000000 | 2) + soft_freq); assert(ctx->counter == (0xf0000000 | 2) + TEST_FREQ);
assert(bt.sec == 1); assert(bt.sec == 1);
assert(bt.frac == 18446742522092); assert(bt.frac == 18446742522092);
test_install(ctx);
TEST_END(); TEST_END();
_Terminate(RTEMS_FATAL_SOURCE_EXIT, 0); _Terminate(RTEMS_FATAL_SOURCE_EXIT, 0);