[babeltrace.git] / src / lib / trace-ir / clock-class.c

/*
 * SPDX-License-Identifier: MIT
 *
 * Copyright 2017-2018 Philippe Proulx <pproulx@efficios.com>
 * Copyright 2013, 2014 Jérémie Galarneau <jeremie.galarneau@efficios.com>
 */

#define BT_LOG_TAG "LIB/CLOCK-CLASS"
#include "lib/logging.h"

#include "lib/assert-cond.h"
#include "common/uuid.h"
#include <babeltrace2/trace-ir/clock-class.h>
#include "clock-class.h"
#include "clock-snapshot.h"
#include "utils.h"
#include "compat/compiler.h"
#include <babeltrace2/types.h>
#include <inttypes.h>
#include <stdbool.h>
#include "lib/object.h"
#include "common/assert.h"
#include "lib/func-status.h"
#include "lib/value.h"

#define BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(_cc)				\
	BT_ASSERT_PRE_DEV_HOT("clock-class", (_cc), "Clock class",	\
		": %!+K", (_cc))

static
void destroy_clock_class(struct bt_object *obj)
{
	struct bt_clock_class *clock_class = (void *) obj;

	BT_LIB_LOGD("Destroying clock class: %!+K", clock_class);
	BT_OBJECT_PUT_REF_AND_RESET(clock_class->user_attributes);

	if (clock_class->name.str) {
		g_string_free(clock_class->name.str, TRUE);
		clock_class->name.str = NULL;
		clock_class->name.value = NULL;
	}

	if (clock_class->description.str) {
		g_string_free(clock_class->description.str, TRUE);
		clock_class->description.str = NULL;
		clock_class->description.value = NULL;
	}

	bt_object_pool_finalize(&clock_class->cs_pool);
	g_free(clock_class);
}

static
void free_clock_snapshot(struct bt_clock_snapshot *clock_snapshot,
		struct bt_clock_class *clock_class __attribute__((unused)))
{
	bt_clock_snapshot_destroy(clock_snapshot);
}

static inline
void set_base_offset(struct bt_clock_class *clock_class)
{
	clock_class->base_offset.overflows = bt_util_get_base_offset_ns(
		clock_class->offset_seconds, clock_class->offset_cycles,
		clock_class->frequency, &clock_class->base_offset.value_ns);
}

BT_EXPORT
struct bt_clock_class *bt_clock_class_create(bt_self_component *self_comp)
{
	int ret;
	struct bt_clock_class *clock_class = NULL;

	BT_ASSERT_PRE_NO_ERROR();
	BT_ASSERT_PRE_COMP_NON_NULL(self_comp);
	BT_LOGD_STR("Creating default clock class object");

	clock_class = g_new0(struct bt_clock_class, 1);
	if (!clock_class) {
		BT_LIB_LOGE_APPEND_CAUSE("Failed to allocate one clock class.");
		goto error;
	}

	bt_object_init_shared(&clock_class->base, destroy_clock_class);

	clock_class->user_attributes = bt_value_map_create();
	if (!clock_class->user_attributes) {
		BT_LIB_LOGE_APPEND_CAUSE(
			"Failed to create a map value object.");
		goto error;
	}

	clock_class->name.str = g_string_new(NULL);
	if (!clock_class->name.str) {
		BT_LIB_LOGE_APPEND_CAUSE("Failed to allocate a GString.");
		goto error;
	}

	clock_class->description.str = g_string_new(NULL);
	if (!clock_class->description.str) {
		BT_LIB_LOGE_APPEND_CAUSE("Failed to allocate a GString.");
		goto error;
	}

	clock_class->frequency = UINT64_C(1000000000);
	clock_class->origin_is_unix_epoch = BT_TRUE;
	set_base_offset(clock_class);
	ret = bt_object_pool_initialize(&clock_class->cs_pool,
		(bt_object_pool_new_object_func) bt_clock_snapshot_new,
		(bt_object_pool_destroy_object_func)
			free_clock_snapshot,
		clock_class);
	if (ret) {
		BT_LIB_LOGE_APPEND_CAUSE(
			"Failed to initialize clock snapshot pool: ret=%d",
			ret);
		goto error;
	}

	BT_LIB_LOGD("Created clock class object: %!+K", clock_class);
	goto end;

error:
	BT_OBJECT_PUT_REF_AND_RESET(clock_class);

end:
	return clock_class;
}

BT_EXPORT
const char *bt_clock_class_get_name(const struct bt_clock_class *clock_class)
{
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	return clock_class->name.value;
}

BT_EXPORT
enum bt_clock_class_set_name_status bt_clock_class_set_name(
		struct bt_clock_class *clock_class, const char *name)
{
	BT_ASSERT_PRE_NO_ERROR();
	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_NAME_NON_NULL(name);
	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
	g_string_assign(clock_class->name.str, name);
	clock_class->name.value = clock_class->name.str->str;
	BT_LIB_LOGD("Set clock class's name: %!+K", clock_class);
	return BT_FUNC_STATUS_OK;
}

BT_EXPORT
const char *bt_clock_class_get_description(
		const struct bt_clock_class *clock_class)
{
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	return clock_class->description.value;
}

BT_EXPORT
enum bt_clock_class_set_description_status bt_clock_class_set_description(
		struct bt_clock_class *clock_class, const char *descr)
{
	BT_ASSERT_PRE_NO_ERROR();
	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_DESCR_NON_NULL(descr);
	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
	g_string_assign(clock_class->description.str, descr);
	clock_class->description.value = clock_class->description.str->str;
	BT_LIB_LOGD("Set clock class's description: %!+K",
		clock_class);
	return BT_FUNC_STATUS_OK;
}

BT_EXPORT
uint64_t bt_clock_class_get_frequency(const struct bt_clock_class *clock_class)
{
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	return clock_class->frequency;
}

BT_EXPORT
void bt_clock_class_set_frequency(struct bt_clock_class *clock_class,
		uint64_t frequency)
{
	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
	BT_ASSERT_PRE("valid-frequency",
		frequency != UINT64_C(-1) && frequency != 0,
		"Invalid frequency: %![cc-]+K, new-freq=%" PRIu64,
		clock_class, frequency);
	BT_ASSERT_PRE("offset-cycles-lt-frequency",
		clock_class->offset_cycles < frequency,
		"Offset (cycles) is greater than clock class's frequency: "
		"%![cc-]+K, new-freq=%" PRIu64, clock_class, frequency);
	clock_class->frequency = frequency;
	set_base_offset(clock_class);
	BT_LIB_LOGD("Set clock class's frequency: %!+K", clock_class);
}

BT_EXPORT
uint64_t bt_clock_class_get_precision(const struct bt_clock_class *clock_class)
{
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	return clock_class->precision;
}

BT_EXPORT
void bt_clock_class_set_precision(struct bt_clock_class *clock_class,
		uint64_t precision)
{
	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
	BT_ASSERT_PRE("valid-precision", precision != UINT64_C(-1),
		"Invalid precision: %![cc-]+K, new-precision=%" PRIu64,
		clock_class, precision);
	clock_class->precision = precision;
	BT_LIB_LOGD("Set clock class's precision: %!+K", clock_class);
}

BT_EXPORT
void bt_clock_class_get_offset(const struct bt_clock_class *clock_class,
		int64_t *seconds, uint64_t *cycles)
{
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_DEV_NON_NULL("seconds-output", seconds,
		"Seconds (output)");
	BT_ASSERT_PRE_DEV_NON_NULL("cycles-output", cycles, "Cycles (output)");
	*seconds = clock_class->offset_seconds;
	*cycles = clock_class->offset_cycles;
}

BT_EXPORT
void bt_clock_class_set_offset(struct bt_clock_class *clock_class,
		int64_t seconds, uint64_t cycles)
{
	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
	BT_ASSERT_PRE("offset-cycles-lt-frequency",
		cycles < clock_class->frequency,
		"Offset (cycles) is greater than clock class's frequency: "
		"%![cc-]+K, new-offset-cycles=%" PRIu64, clock_class, cycles);
	clock_class->offset_seconds = seconds;
	clock_class->offset_cycles = cycles;
	set_base_offset(clock_class);
	BT_LIB_LOGD("Set clock class's offset: %!+K", clock_class);
}

BT_EXPORT
bt_bool bt_clock_class_origin_is_unix_epoch(const struct bt_clock_class *clock_class)
{
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	return (bool) clock_class->origin_is_unix_epoch;
}

BT_EXPORT
void bt_clock_class_set_origin_is_unix_epoch(struct bt_clock_class *clock_class,
		bt_bool origin_is_unix_epoch)
{
	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
	clock_class->origin_is_unix_epoch = (bool) origin_is_unix_epoch;
	BT_LIB_LOGD("Set clock class's origin is Unix epoch property: %!+K",
		clock_class);
}

BT_EXPORT
bt_uuid bt_clock_class_get_uuid(const struct bt_clock_class *clock_class)
{
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	return clock_class->uuid.value;
}

BT_EXPORT
void bt_clock_class_set_uuid(struct bt_clock_class *clock_class,
		bt_uuid uuid)
{
	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_UUID_NON_NULL(uuid);
	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
	bt_uuid_copy(clock_class->uuid.uuid, uuid);
	clock_class->uuid.value = clock_class->uuid.uuid;
	BT_LIB_LOGD("Set clock class's UUID: %!+K", clock_class);
}

void _bt_clock_class_freeze(const struct bt_clock_class *clock_class)
{
	BT_ASSERT(clock_class);

	if (clock_class->frozen) {
		return;
	}

	BT_LIB_LOGD("Freezing clock class's user attributes: %!+v",
		clock_class->user_attributes);
	bt_value_freeze(clock_class->user_attributes);
	BT_LIB_LOGD("Freezing clock class: %!+K", clock_class);
	((struct bt_clock_class *) clock_class)->frozen = 1;
}

BT_EXPORT
enum bt_clock_class_cycles_to_ns_from_origin_status
bt_clock_class_cycles_to_ns_from_origin(
		const struct bt_clock_class *clock_class,
		uint64_t cycles, int64_t *ns)
{
	int ret;

	BT_ASSERT_PRE_DEV_NO_ERROR();
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_DEV_NON_NULL("nanoseconds-output", ns,
		"Nanoseconds (output)");
	ret = bt_util_ns_from_origin_clock_class(clock_class, cycles, ns);
	if (ret) {
		BT_LIB_LOGE_APPEND_CAUSE("Cannot convert cycles to nanoseconds "
			"from origin for given clock class: "
			"value overflows the signed 64-bit integer range: "
			"%![cc-]+K, cycles=%" PRIu64,
			clock_class, cycles);
		ret = BT_FUNC_STATUS_OVERFLOW_ERROR;
	}

	return ret;
}

BT_EXPORT
const struct bt_value *bt_clock_class_borrow_user_attributes_const(
		const struct bt_clock_class *clock_class)
{
	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
	return clock_class->user_attributes;
}

BT_EXPORT
struct bt_value *bt_clock_class_borrow_user_attributes(
		struct bt_clock_class *clock_class)
{
	return (void *) bt_clock_class_borrow_user_attributes_const(
		(void *) clock_class);
}

BT_EXPORT
void bt_clock_class_set_user_attributes(
		struct bt_clock_class *clock_class,
		const struct bt_value *user_attributes)
{
	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	BT_ASSERT_PRE_USER_ATTRS_NON_NULL(user_attributes);
	BT_ASSERT_PRE_USER_ATTRS_IS_MAP(user_attributes);
	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
	bt_object_put_ref_no_null_check(clock_class->user_attributes);
	clock_class->user_attributes = (void *) user_attributes;
	bt_object_get_ref_no_null_check(clock_class->user_attributes);
}

BT_EXPORT
void bt_clock_class_get_ref(const struct bt_clock_class *clock_class)
{
	bt_object_get_ref(clock_class);
}

BT_EXPORT
void bt_clock_class_put_ref(const struct bt_clock_class *clock_class)
{
	bt_object_put_ref(clock_class);
}
Commit	Line	Data
273b65be	1	/*
0235b0db MJ	2	* SPDX-License-Identifier: MIT
0235b0db MJ	3	*
e2f7325d	4	* Copyright 2017-2018 Philippe Proulx <pproulx@efficios.com>
de9dd397	5	* Copyright 2013, 2014 Jérémie Galarneau <jeremie.galarneau@efficios.com>
273b65be JG	6	*/
273b65be JG	7
350ad6c1	8	#define BT_LOG_TAG "LIB/CLOCK-CLASS"
c2d9d9cf	9	#include "lib/logging.h"
0f5e83e5	10
d98421f2	11	#include "lib/assert-cond.h"
6162e6b7	12	#include "common/uuid.h"
3fadfbc0	13	#include <babeltrace2/trace-ir/clock-class.h>
578e048b MJ	14	#include "clock-class.h"
	15	#include "clock-snapshot.h"
	16	#include "utils.h"
	17	#include "compat/compiler.h"
3fadfbc0	18	#include <babeltrace2/types.h>
273b65be	19	#include <inttypes.h>
c4f23e30	20	#include <stdbool.h>
578e048b MJ	21	#include "lib/object.h"
578e048b MJ	22	#include "common/assert.h"
d24d5663	23	#include "lib/func-status.h"
c6962c96	24	#include "lib/value.h"
5134570b	25
d5b13b9b	26	#define BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(_cc) \
1778c2a4 PP	27	BT_ASSERT_PRE_DEV_HOT("clock-class", (_cc), "Clock class", \
1778c2a4 PP	28	": %!+K", (_cc))
312c056a PP	29
312c056a PP	30	static
44c440bc	31	void destroy_clock_class(struct bt_object *obj)
c06116f3	32	{
44c440bc	33	struct bt_clock_class clock_class = (void ) obj;
c06116f3	34
44c440bc	35	BT_LIB_LOGD("Destroying clock class: %!+K", clock_class);
c6962c96	36	BT_OBJECT_PUT_REF_AND_RESET(clock_class->user_attributes);
273b65be	37
44c440bc PP	38	if (clock_class->name.str) {
44c440bc PP	39	g_string_free(clock_class->name.str, TRUE);
238b7404 PP	40	clock_class->name.str = NULL;
238b7404 PP	41	clock_class->name.value = NULL;
5134570b PP	42	}
5134570b PP	43
44c440bc PP	44	if (clock_class->description.str) {
44c440bc PP	45	g_string_free(clock_class->description.str, TRUE);
238b7404 PP	46	clock_class->description.str = NULL;
238b7404 PP	47	clock_class->description.value = NULL;
273b65be JG	48	}
273b65be JG	49
605e1019	50	bt_object_pool_finalize(&clock_class->cs_pool);
44c440bc	51	g_free(clock_class);
4c426c17 JG	52	}
4c426c17 JG	53
f3534905	54	static
605e1019	55	void free_clock_snapshot(struct bt_clock_snapshot *clock_snapshot,
ecd7492f	56	struct bt_clock_class *clock_class __attribute__((unused)))
f3534905	57	{
605e1019	58	bt_clock_snapshot_destroy(clock_snapshot);
f3534905 PP	59	}
f3534905 PP	60
44c440bc PP	61	static inline
44c440bc PP	62	void set_base_offset(struct bt_clock_class *clock_class)
312c056a	63	{
0f2d58c9 PP	64	clock_class->base_offset.overflows = bt_util_get_base_offset_ns(
	65	clock_class->offset_seconds, clock_class->offset_cycles,
	66	clock_class->frequency, &clock_class->base_offset.value_ns);
312c056a PP	67	}
312c056a PP	68
1353b066	69	BT_EXPORT
7fcdb0a9	70	struct bt_clock_class bt_clock_class_create(bt_self_component self_comp)
4c426c17 JG	71	{
4c426c17 JG	72	int ret;
50842bdc	73	struct bt_clock_class *clock_class = NULL;
4c426c17	74
17f3083a	75	BT_ASSERT_PRE_NO_ERROR();
d5b13b9b	76	BT_ASSERT_PRE_COMP_NON_NULL(self_comp);
44c440bc	77	BT_LOGD_STR("Creating default clock class object");
f3534905	78
50842bdc	79	clock_class = g_new0(struct bt_clock_class, 1);
ac0c6bdd	80	if (!clock_class) {
870631a2	81	BT_LIB_LOGE_APPEND_CAUSE("Failed to allocate one clock class.");
4c426c17 JG	82	goto error;
	83	}
	84
44c440bc	85	bt_object_init_shared(&clock_class->base, destroy_clock_class);
c6962c96 PP	86
	87	clock_class->user_attributes = bt_value_map_create();
	88	if (!clock_class->user_attributes) {
	89	BT_LIB_LOGE_APPEND_CAUSE(
	90	"Failed to create a map value object.");
	91	goto error;
	92	}
	93
44c440bc PP	94	clock_class->name.str = g_string_new(NULL);
44c440bc PP	95	if (!clock_class->name.str) {
870631a2	96	BT_LIB_LOGE_APPEND_CAUSE("Failed to allocate a GString.");
44c440bc PP	97	goto error;
44c440bc PP	98	}
85380e99	99
44c440bc PP	100	clock_class->description.str = g_string_new(NULL);
44c440bc PP	101	if (!clock_class->description.str) {
870631a2	102	BT_LIB_LOGE_APPEND_CAUSE("Failed to allocate a GString.");
44c440bc	103	goto error;
273b65be JG	104	}
273b65be JG	105
44c440bc	106	clock_class->frequency = UINT64_C(1000000000);
5552377a	107	clock_class->origin_is_unix_epoch = BT_TRUE;
44c440bc	108	set_base_offset(clock_class);
605e1019 PP	109	ret = bt_object_pool_initialize(&clock_class->cs_pool,
605e1019 PP	110	(bt_object_pool_new_object_func) bt_clock_snapshot_new,
312c056a	111	(bt_object_pool_destroy_object_func)
605e1019	112	free_clock_snapshot,
312c056a PP	113	clock_class);
312c056a PP	114	if (ret) {
870631a2 PP	115	BT_LIB_LOGE_APPEND_CAUSE(
870631a2 PP	116	"Failed to initialize clock snapshot pool: ret=%d",
312c056a PP	117	ret);
	118	goto error;
	119	}
	120
44c440bc PP	121	BT_LIB_LOGD("Created clock class object: %!+K", clock_class);
	122	goto end;
	123
273b65be	124	error:
65300d60	125	BT_OBJECT_PUT_REF_AND_RESET(clock_class);
87d76bb1 JG	126
87d76bb1 JG	127	end:
40f4ba76	128	return clock_class;
87d76bb1 JG	129	}
87d76bb1 JG	130
1353b066	131	BT_EXPORT
40f4ba76	132	const char bt_clock_class_get_name(const struct bt_clock_class clock_class)
87d76bb1	133	{
d5b13b9b	134	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
44c440bc PP	135	return clock_class->name.value;
44c440bc PP	136	}
87d76bb1	137
1353b066	138	BT_EXPORT
d24d5663	139	enum bt_clock_class_set_name_status bt_clock_class_set_name(
8c41fd73	140	struct bt_clock_class clock_class, const char name)
44c440bc	141	{
17f3083a	142	BT_ASSERT_PRE_NO_ERROR();
d5b13b9b PP	143	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
d5b13b9b PP	144	BT_ASSERT_PRE_NAME_NON_NULL(name);
bdb288b3	145	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
44c440bc PP	146	g_string_assign(clock_class->name.str, name);
44c440bc PP	147	clock_class->name.value = clock_class->name.str->str;
3f7d4d90	148	BT_LIB_LOGD("Set clock class's name: %!+K", clock_class);
d24d5663	149	return BT_FUNC_STATUS_OK;
44c440bc	150	}
87d76bb1	151
1353b066	152	BT_EXPORT
40f4ba76 PP	153	const char *bt_clock_class_get_description(
40f4ba76 PP	154	const struct bt_clock_class *clock_class)
44c440bc	155	{
d5b13b9b	156	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
44c440bc	157	return clock_class->description.value;
273b65be JG	158	}
273b65be JG	159
1353b066	160	BT_EXPORT
d24d5663	161	enum bt_clock_class_set_description_status bt_clock_class_set_description(
8c41fd73	162	struct bt_clock_class clock_class, const char descr)
273b65be	163	{
17f3083a	164	BT_ASSERT_PRE_NO_ERROR();
d5b13b9b PP	165	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
d5b13b9b PP	166	BT_ASSERT_PRE_DESCR_NON_NULL(descr);
bdb288b3	167	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
44c440bc PP	168	g_string_assign(clock_class->description.str, descr);
44c440bc PP	169	clock_class->description.value = clock_class->description.str->str;
3f7d4d90	170	BT_LIB_LOGD("Set clock class's description: %!+K",
44c440bc	171	clock_class);
d24d5663	172	return BT_FUNC_STATUS_OK;
273b65be JG	173	}
273b65be JG	174
1353b066	175	BT_EXPORT
40f4ba76	176	uint64_t bt_clock_class_get_frequency(const struct bt_clock_class *clock_class)
87d76bb1	177	{
d5b13b9b	178	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
44c440bc	179	return clock_class->frequency;
87d76bb1 JG	180	}
87d76bb1 JG	181
1353b066	182	BT_EXPORT
40f4ba76	183	void bt_clock_class_set_frequency(struct bt_clock_class *clock_class,
44c440bc	184	uint64_t frequency)
273b65be	185	{
d5b13b9b	186	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
bdb288b3	187	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
1778c2a4 PP	188	BT_ASSERT_PRE("valid-frequency",
1778c2a4 PP	189	frequency != UINT64_C(-1) && frequency != 0,
44c440bc PP	190	"Invalid frequency: %![cc-]+K, new-freq=%" PRIu64,
44c440bc PP	191	clock_class, frequency);
1778c2a4 PP	192	BT_ASSERT_PRE("offset-cycles-lt-frequency",
1778c2a4 PP	193	clock_class->offset_cycles < frequency,
44c440bc PP	194	"Offset (cycles) is greater than clock class's frequency: "
	195	"%![cc-]+K, new-freq=%" PRIu64, clock_class, frequency);
	196	clock_class->frequency = frequency;
	197	set_base_offset(clock_class);
3f7d4d90	198	BT_LIB_LOGD("Set clock class's frequency: %!+K", clock_class);
273b65be JG	199	}
273b65be JG	200
1353b066	201	BT_EXPORT
40f4ba76	202	uint64_t bt_clock_class_get_precision(const struct bt_clock_class *clock_class)
87d76bb1	203	{
d5b13b9b	204	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
44c440bc	205	return clock_class->precision;
87d76bb1 JG	206	}
87d76bb1 JG	207
1353b066	208	BT_EXPORT
40f4ba76	209	void bt_clock_class_set_precision(struct bt_clock_class *clock_class,
ac0c6bdd	210	uint64_t precision)
273b65be	211	{
d5b13b9b	212	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
bdb288b3	213	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
1778c2a4	214	BT_ASSERT_PRE("valid-precision", precision != UINT64_C(-1),
44c440bc PP	215	"Invalid precision: %![cc-]+K, new-precision=%" PRIu64,
44c440bc PP	216	clock_class, precision);
ac0c6bdd	217	clock_class->precision = precision;
3f7d4d90	218	BT_LIB_LOGD("Set clock class's precision: %!+K", clock_class);
273b65be JG	219	}
273b65be JG	220
1353b066	221	BT_EXPORT
40f4ba76	222	void bt_clock_class_get_offset(const struct bt_clock_class *clock_class,
44c440bc	223	int64_t seconds, uint64_t cycles)
87d76bb1	224	{
d5b13b9b	225	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
1778c2a4 PP	226	BT_ASSERT_PRE_DEV_NON_NULL("seconds-output", seconds,
	227	"Seconds (output)");
	228	BT_ASSERT_PRE_DEV_NON_NULL("cycles-output", cycles, "Cycles (output)");
44c440bc PP	229	*seconds = clock_class->offset_seconds;
44c440bc PP	230	*cycles = clock_class->offset_cycles;
87d76bb1 JG	231	}
87d76bb1 JG	232
1353b066	233	BT_EXPORT
40f4ba76	234	void bt_clock_class_set_offset(struct bt_clock_class *clock_class,
44c440bc	235	int64_t seconds, uint64_t cycles)
273b65be	236	{
d5b13b9b	237	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
bdb288b3	238	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
1778c2a4 PP	239	BT_ASSERT_PRE("offset-cycles-lt-frequency",
1778c2a4 PP	240	cycles < clock_class->frequency,
44c440bc PP	241	"Offset (cycles) is greater than clock class's frequency: "
	242	"%![cc-]+K, new-offset-cycles=%" PRIu64, clock_class, cycles);
	243	clock_class->offset_seconds = seconds;
	244	clock_class->offset_cycles = cycles;
	245	set_base_offset(clock_class);
3f7d4d90	246	BT_LIB_LOGD("Set clock class's offset: %!+K", clock_class);
273b65be JG	247	}
273b65be JG	248
1353b066	249	BT_EXPORT
5552377a	250	bt_bool bt_clock_class_origin_is_unix_epoch(const struct bt_clock_class *clock_class)
87d76bb1	251	{
d5b13b9b	252	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
5552377a	253	return (bool) clock_class->origin_is_unix_epoch;
87d76bb1 JG	254	}
87d76bb1 JG	255
1353b066	256	BT_EXPORT
5552377a PP	257	void bt_clock_class_set_origin_is_unix_epoch(struct bt_clock_class *clock_class,
5552377a PP	258	bt_bool origin_is_unix_epoch)
273b65be	259	{
d5b13b9b	260	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
bdb288b3	261	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
5552377a	262	clock_class->origin_is_unix_epoch = (bool) origin_is_unix_epoch;
3f7d4d90	263	BT_LIB_LOGD("Set clock class's origin is Unix epoch property: %!+K",
44c440bc	264	clock_class);
273b65be JG	265	}
273b65be JG	266
1353b066	267	BT_EXPORT
40f4ba76	268	bt_uuid bt_clock_class_get_uuid(const struct bt_clock_class *clock_class)
85b743f4	269	{
d5b13b9b	270	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
44c440bc	271	return clock_class->uuid.value;
85b743f4 JG	272	}
85b743f4 JG	273
1353b066	274	BT_EXPORT
40f4ba76	275	void bt_clock_class_set_uuid(struct bt_clock_class *clock_class,
44c440bc	276	bt_uuid uuid)
85b743f4	277	{
d5b13b9b PP	278	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
d5b13b9b PP	279	BT_ASSERT_PRE_UUID_NON_NULL(uuid);
bdb288b3	280	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
6162e6b7	281	bt_uuid_copy(clock_class->uuid.uuid, uuid);
44c440bc	282	clock_class->uuid.value = clock_class->uuid.uuid;
3f7d4d90	283	BT_LIB_LOGD("Set clock class's UUID: %!+K", clock_class);
312c056a PP	284	}
312c056a PP	285
40f4ba76	286	void _bt_clock_class_freeze(const struct bt_clock_class *clock_class)
312c056a	287	{
312c056a	288	BT_ASSERT(clock_class);
6f57e458	289
44c440bc PP	290	if (clock_class->frozen) {
44c440bc PP	291	return;
93dda901 PP	292	}
93dda901 PP	293
c6962c96 PP	294	BT_LIB_LOGD("Freezing clock class's user attributes: %!+v",
	295	clock_class->user_attributes);
	296	bt_value_freeze(clock_class->user_attributes);
44c440bc	297	BT_LIB_LOGD("Freezing clock class: %!+K", clock_class);
40f4ba76	298	((struct bt_clock_class *) clock_class)->frozen = 1;
93dda901	299	}
312c056a	300
1353b066	301	BT_EXPORT
d24d5663 PP	302	enum bt_clock_class_cycles_to_ns_from_origin_status
d24d5663 PP	303	bt_clock_class_cycles_to_ns_from_origin(
40f4ba76	304	const struct bt_clock_class *clock_class,
312c056a PP	305	uint64_t cycles, int64_t *ns)
	306	{
	307	int ret;
312c056a	308
17f3083a	309	BT_ASSERT_PRE_DEV_NO_ERROR();
d5b13b9b	310	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
1778c2a4 PP	311	BT_ASSERT_PRE_DEV_NON_NULL("nanoseconds-output", ns,
1778c2a4 PP	312	"Nanoseconds (output)");
0f2d58c9	313	ret = bt_util_ns_from_origin_clock_class(clock_class, cycles, ns);
312c056a	314	if (ret) {
bc3d9692	315	BT_LIB_LOGE_APPEND_CAUSE("Cannot convert cycles to nanoseconds "
44c440bc PP	316	"from origin for given clock class: "
	317	"value overflows the signed 64-bit integer range: "
	318	"%![cc-]+K, cycles=%" PRIu64,
	319	clock_class, cycles);
520cdc82	320	ret = BT_FUNC_STATUS_OVERFLOW_ERROR;
312c056a PP	321	}
312c056a PP	322
312c056a PP	323	return ret;
312c056a PP	324	}
c5b9b441	325
1353b066	326	BT_EXPORT
c6962c96 PP	327	const struct bt_value *bt_clock_class_borrow_user_attributes_const(
	328	const struct bt_clock_class *clock_class)
	329	{
d5b13b9b	330	BT_ASSERT_PRE_DEV_CLK_CLS_NON_NULL(clock_class);
c6962c96 PP	331	return clock_class->user_attributes;
	332	}
	333
1353b066	334	BT_EXPORT
c6962c96 PP	335	struct bt_value *bt_clock_class_borrow_user_attributes(
	336	struct bt_clock_class *clock_class)
	337	{
	338	return (void *) bt_clock_class_borrow_user_attributes_const(
	339	(void *) clock_class);
	340	}
	341
1353b066	342	BT_EXPORT
c6962c96 PP	343	void bt_clock_class_set_user_attributes(
	344	struct bt_clock_class *clock_class,
	345	const struct bt_value *user_attributes)
	346	{
d5b13b9b PP	347	BT_ASSERT_PRE_CLK_CLS_NON_NULL(clock_class);
	348	BT_ASSERT_PRE_USER_ATTRS_NON_NULL(user_attributes);
	349	BT_ASSERT_PRE_USER_ATTRS_IS_MAP(user_attributes);
c6962c96	350	BT_ASSERT_PRE_DEV_CLOCK_CLASS_HOT(clock_class);
6871026b	351	bt_object_put_ref_no_null_check(clock_class->user_attributes);
c6962c96	352	clock_class->user_attributes = (void *) user_attributes;
6871026b	353	bt_object_get_ref_no_null_check(clock_class->user_attributes);
c6962c96 PP	354	}
c6962c96 PP	355
1353b066	356	BT_EXPORT
c5b9b441 PP	357	void bt_clock_class_get_ref(const struct bt_clock_class *clock_class)
	358	{
	359	bt_object_get_ref(clock_class);
	360	}
	361
1353b066	362	BT_EXPORT
c5b9b441 PP	363	void bt_clock_class_put_ref(const struct bt_clock_class *clock_class)
	364	{
	365	bt_object_put_ref(clock_class);
	366	}