tests/unit/timeutil/test_sync.c - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright 2020 Peter Bigot Consulting
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 /* Tests for the time_sync data structures */

 #include <string.h>
 #include <zephyr/ztest.h>
 #include "timeutil_test.h"

 static const struct timeutil_sync_config cfg1 = {
 	.ref_Hz = USEC_PER_SEC,
 	.local_Hz = 32768,
 };

 static const struct timeutil_sync_config cfg2 = {
 	.ref_Hz = NSEC_PER_SEC,
 	.local_Hz = 100,
 };

 static inline uint64_t scale_ref(uint32_t factor,
 			      const struct timeutil_sync_config *cfg)
 {
 	return (uint64_t)factor * (uint64_t)cfg->ref_Hz;
 }

 static inline uint64_t scale_local(uint32_t factor,
 				   const struct timeutil_sync_config *cfg)
 {
 	return (uint64_t)factor * (uint64_t)cfg->local_Hz;
 }

 static inline int64_t scale_local_signed(int32_t factor,
 					 const struct timeutil_sync_config *cfg)
 {
 	return (int64_t)factor * (int64_t)cfg->local_Hz;
 }


 static void test_state_update(void)
 {
 	struct timeutil_sync_instant si = { 0 };
 	struct timeutil_sync_state ss = { 0 };
 	int rv = timeutil_sync_state_update(&ss, &si);

 	zassert_equal(rv, -EINVAL,
 		      "invalid init got: %d", rv);
 	zassert_equal(ss.base.ref, 0,
 		      "unexpected base ref");
 	zassert_equal(ss.skew, 0,
 		      "unexpected skew");

 	si.ref = 1;
 	rv = timeutil_sync_state_update(&ss, &si);
 	zassert_equal(rv, 0,
 		      "valid first init got: %d", rv);
 	zassert_equal(ss.base.ref, 1,
 		      "base not updated");
 	zassert_equal(ss.latest.ref, 0,
 		      "unexpected latest ref");
 	zassert_equal(ss.skew, 1.0,
 		      "unexpected skew");

 	rv = timeutil_sync_state_update(&ss, &si);
 	zassert_equal(rv, -EINVAL,
 		      "non-increasing ref got: %d", rv);
 	zassert_equal(ss.base.ref, 1,
 		      "unexpected base ref");
 	zassert_equal(ss.base.local, 0,
 		      "unexpected base local");
 	zassert_equal(ss.latest.ref, 0,
 		      "unexpected latest ref");

 	si.ref += 1;
 	rv = timeutil_sync_state_update(&ss, &si);
 	zassert_equal(rv, -EINVAL,
 		      "non-increasing local got: %d", rv);
 	zassert_equal(ss.latest.ref, 0,
 		      "unexpected latest ref");

 	si.local += 20;
 	rv = timeutil_sync_state_update(&ss, &si);
 	zassert_equal(rv, 1,
 		      "increasing got: %d", rv);
 	zassert_equal(ss.base.ref, 1,
 		      "unexpected base ref");
 	zassert_equal(ss.base.local, 0,
 		      "unexpected base local");
 	zassert_equal(ss.latest.ref, si.ref,
 		      "unexpected latest ref");
 	zassert_equal(ss.latest.local, si.local,
 		      "unexpected latest local");
 }

 static void test_state_set_skew(void)
 {
 	struct timeutil_sync_instant si = {
 		.ref = 1,
 	};
 	struct timeutil_sync_state ss = {
 		.cfg = &cfg1,
 	};
 	float skew = 0.99;
 	int rv = timeutil_sync_state_update(&ss, &si);

 	zassert_equal(rv, 0,
 		      "valid first init got: %d", rv);
 	zassert_equal(ss.skew, 1.0,
 		      "unexpected skew");

 	rv = timeutil_sync_state_set_skew(&ss, -1.0, NULL);
 	zassert_equal(rv, -EINVAL,
 		      "negative skew set got: %d", rv);
 	zassert_equal(ss.skew, 1.0,
 		      "unexpected skew");

 	rv = timeutil_sync_state_set_skew(&ss, 0.0, NULL);
 	zassert_equal(rv, -EINVAL,
 		      "zero skew set got: %d", rv);
 	zassert_equal(ss.skew, 1.0,
 		      "unexpected skew");

 	rv = timeutil_sync_state_set_skew(&ss, skew, NULL);
 	zassert_equal(rv, 0,
 		      "valid skew set got: %d", rv);
 	zassert_equal(ss.skew, skew,
 		      "unexpected skew");
 	zassert_equal(ss.base.ref, si.ref,
 		      "unexpected base ref");
 	zassert_equal(ss.base.local, si.local,
 		      "unexpected base ref");

 	skew = 1.01;
 	si.ref += 5;
 	si.local += 3;

 	rv = timeutil_sync_state_set_skew(&ss, skew, &si);
 	zassert_equal(rv, 0,
 		      "valid skew set got: %d", rv);
 	zassert_equal(ss.skew, skew,
 		      "unexpected skew");
 	zassert_equal(ss.base.ref, si.ref,
 		      "unexpected base ref");
 	zassert_equal(ss.base.local, si.local,
 		      "unexpected base ref");
 	zassert_equal(ss.latest.ref, 0,
 		      "uncleared latest ref");
 	zassert_equal(ss.latest.local, 0,
 		      "uncleared latest local");
 }

 static void test_estimate_skew(void)
 {
 	struct timeutil_sync_state ss = {
 		.cfg = &cfg1,
 	};
 	struct timeutil_sync_instant si0 = {
 		.ref = cfg1.ref_Hz,
 	};
 	struct timeutil_sync_instant si1 = {
 		.ref = si0.ref + cfg1.ref_Hz,
 		.local = si0.local + cfg1.local_Hz,
 	};
 	float skew = 0.0;

 	skew = timeutil_sync_estimate_skew(&ss);
 	zassert_equal(skew, 0,
 		      "unexpected uninit skew: %f", skew);

 	int rv = timeutil_sync_state_update(&ss, &si0);

 	zassert_equal(rv, 0,
 		      "valid init got: %d", rv);

 	skew = timeutil_sync_estimate_skew(&ss);
 	zassert_equal(skew, 0,
 		      "unexpected base-only skew: %f", skew);

 	rv = timeutil_sync_state_update(&ss, &si1);
 	zassert_equal(rv, 1,
 		      "valid update got: %d", rv);

 	zassert_equal(ss.base.ref, si0.ref,
 		      "unexpected base ref");
 	zassert_equal(ss.base.local, si0.local,
 		      "unexpected base local");
 	zassert_equal(ss.latest.ref, si1.ref,
 		      "unexpected latest ref");
 	zassert_equal(ss.latest.local, si1.local,
 		      "unexpected latest local");

 	skew = timeutil_sync_estimate_skew(&ss);
 	zassert_equal(skew, 1.0,
 		      "unexpected linear skew: %f", skew);

 	/* Local advanced half as far as it should: scale by 2 to
 	 * correct.
 	 */
 	ss.latest.local = scale_local(1, ss.cfg) / 2;
 	skew = timeutil_sync_estimate_skew(&ss);
 	zassert_equal(skew, 2.0,
 		      "unexpected half skew: %f", skew);

 	/* Local advanced twice as far as it should: scale by 1/2 to
 	 * correct.
 	 */
 	ss.latest.local = scale_local(2, ss.cfg);
 	skew = timeutil_sync_estimate_skew(&ss);
 	zassert_equal(skew, 0.5,
 		      "unexpected double skew: %f", skew);
 }

 static void tref_from_local(const char *tag,
 			    const struct timeutil_sync_config *cfg)
 {
 	struct timeutil_sync_state ss = {
 		.cfg = cfg,
 	};
 	struct timeutil_sync_instant si0 = {
 		/* Absolute local 0 is 5 s ref */
 		.ref = scale_ref(10, cfg),
 		.local = scale_local(5, cfg),
 	};
 	uint64_t ref = 0;
 	int rv = timeutil_sync_ref_from_local(&ss, 0, &ref);

 	zassert_equal(rv, -EINVAL,
 		      "%s: unexpected uninit convert: %d", tag, rv);

 	rv = timeutil_sync_state_update(&ss, &si0);
 	zassert_equal(rv, 0,
 		      "%s: unexpected init: %d", tag, rv);
 	zassert_equal(ss.skew, 1.0,
 		      "%s: unexpected skew");

 	rv = timeutil_sync_ref_from_local(&ss, ss.base.local, NULL);
 	zassert_equal(rv, -EINVAL,
 		      "%s: unexpected missing dest: %d", tag, rv);

 	rv = timeutil_sync_ref_from_local(&ss, ss.base.local, &ref);
 	zassert_equal(rv, 0,
 		      "%s: unexpected fail", tag, rv);
 	zassert_equal(ref, ss.base.ref,
 		      "%s: unexpected base convert", tag);

 	rv = timeutil_sync_ref_from_local(&ss, 0, &ref);
 	zassert_equal(rv, 0,
 		      "%s: unexpected local=0 fail", tag, rv);
 	zassert_equal(ref, scale_ref(5, cfg),
 		      "%s: unexpected local=0 ref", tag);

 	rv = timeutil_sync_ref_from_local(&ss, ss.base.local, &ref);
 	zassert_equal(rv, 0,
 		      "%s: unexpected local=base fail", tag, rv);
 	zassert_equal(ref, ss.base.ref,
 		      "%s: unexpected local=base ref", tag);

 	rv = timeutil_sync_ref_from_local(&ss, ss.base.local
 					  + scale_local(2, cfg), &ref);
 	zassert_equal(rv, 0,
 		      "%s: unexpected local=base+2s fail %d", tag, rv);
 	zassert_equal(ref, ss.base.ref + scale_ref(2, cfg),
 		      "%s: unexpected local=base+2s ref", tag);

 	rv = timeutil_sync_ref_from_local(&ss, (int64_t)ss.base.local
 					  - scale_local(12, cfg), &ref);
 	zassert_equal(rv, -ERANGE,
 		      "%s: unexpected local=base-12s res %u", tag, rv);

 	/* Skew of 0.5 means local runs at double speed */
 	rv = timeutil_sync_state_set_skew(&ss, 0.5, NULL);
 	zassert_equal(rv, 0,
 		      "%s: failed set skew", tag);

 	/* Local at double speed corresponds to half advance in ref */
 	rv = timeutil_sync_ref_from_local(&ss, ss.base.local
 					  + scale_local(2, cfg), &ref);
 	zassert_equal(rv, 1,
 		      "%s: unexpected skew adj fail", tag);
 	zassert_equal(ref, ss.base.ref + cfg->ref_Hz,
 		      "%s: unexpected skew adj convert", tag);
 }

 static void test_ref_from_local(void)
 {
 	tref_from_local("std", &cfg1);
 	tref_from_local("ext", &cfg2);
 }

 static void tlocal_from_ref(const char *tag,
 			    const struct timeutil_sync_config *cfg)
 {
 	struct timeutil_sync_state ss = {
 		.cfg = cfg,
 	};
 	struct timeutil_sync_instant si0 = {
 		/* Absolute local 0 is 5 s ref */
 		.ref = scale_ref(10, cfg),
 		.local = scale_local(5, cfg),
 	};
 	int64_t local = 0;
 	int rv = timeutil_sync_local_from_ref(&ss, 0, &local);

 	zassert_equal(rv, -EINVAL,
 		      "%s: unexpected uninit convert: %d", tag, rv);

 	rv = timeutil_sync_state_update(&ss, &si0);
 	zassert_equal(rv, 0,
 		      "%s: unexpected init: %d", tag, rv);
 	zassert_equal(ss.skew, 1.0,
 		      "%s: unexpected skew", tag);

 	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref, NULL);
 	zassert_equal(rv, -EINVAL,
 		      "%s: unexpected missing dest", tag, rv);

 	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref, &local);
 	zassert_equal(rv, 0,
 		      "%s: unexpected fail", tag, rv);
 	zassert_equal(local, ss.base.local,
 		      "%s: unexpected base convert", tag);

 	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref
 					  + scale_ref(2, cfg), &local);
 	zassert_equal(rv, 0,
 		      "%s: unexpected base+2s fail", tag);
 	zassert_equal(local, ss.base.local + scale_local(2, cfg),
 		      "%s: unexpected base+2s convert", tag);

 	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref
 					  - scale_ref(7, cfg), &local);
 	zassert_equal(rv, 0,
 		      "%s: unexpected base-7s fail", tag);
 	zassert_equal(local, scale_local_signed(-2, cfg),
 		      "%s: unexpected base-7s convert", tag);


 	/* Skew of 0.5 means local runs at double speed */
 	rv = timeutil_sync_state_set_skew(&ss, 0.5, NULL);
 	zassert_equal(rv, 0,
 		      "%s: failed set skew", tag);

 	/* Local at double speed corresponds to half advance in ref */
 	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref
 					  + scale_ref(1, cfg) / 2, &local);
 	zassert_equal(rv, 1,
 		      "%s: unexpected skew adj fail", tag);
 	zassert_equal(local, ss.base.local + scale_local(1, cfg),
 		      "%s: unexpected skew adj convert", tag);
 }

 static void test_local_from_ref(void)
 {
 	tlocal_from_ref("std", &cfg1);
 	tlocal_from_ref("ext", &cfg2);
 }

 static void test_large_linearity(void)
 {
 	uint64_t inputs[] = {
 		1000ULL,
 		3999999999ULL,
 		4000000000ULL,
 		4000000001ULL,
 		UINT64_MAX / 10000000
 	};
 	uint64_t ref_out;
 	int64_t loc_out;
 	int rv;

 	const struct timeutil_sync_config unity = {
 		.ref_Hz = 1000,
 		.local_Hz = 1000,
 	};
 	struct timeutil_sync_instant inst = {
 		.ref = 200,
 		.local = 100
 	};
 	struct timeutil_sync_state ss = {
 		.cfg = &unity,
 	};
 	uint64_t offset = inst.ref - inst.local;

 	timeutil_sync_state_set_skew(&ss, 1.0f, &inst);

 	for (int i = 0; i < ARRAY_SIZE(inputs); i++) {
 		rv = timeutil_sync_ref_from_local(&ss, inputs[i], &ref_out);
 		zassert_equal(rv, 0, "Unexpected conversion fail");
 		zassert_equal(ref_out, inputs[i] + offset,
 			      "Large unity local->ref conversion fail");

 		rv = timeutil_sync_local_from_ref(&ss, inputs[i], &loc_out);
 		zassert_equal(rv, 0, "Unexpected conversion fail");
 		zassert_equal(loc_out, inputs[i] - offset,
 			      "Large unity ref->local conversion fail");
 	}
 }

 static void test_skew_to_ppb(void)
 {
 	float skew = 1.0;
 	int32_t ppb = timeutil_sync_skew_to_ppb(skew);

 	zassert_equal(ppb, 0,
 		      "unexpected perfect: %d", ppb);

 	skew = 0.999976;
 	ppb = timeutil_sync_skew_to_ppb(skew);
 	zassert_equal(ppb, 24020,
 		      "unexpected fast: %d", ppb);

 	skew = 1.000022;
 	ppb = timeutil_sync_skew_to_ppb(skew);
 	zassert_equal(ppb, -22053,
 		      "unexpected slow: %d", ppb);

 	skew = 3.147483587;
 	ppb = timeutil_sync_skew_to_ppb(skew);
 	zassert_equal(ppb, -2147483587,
 		      "unexpected near limit: %.10g %d", skew, ppb);
 	skew = 3.147483826;
 	ppb = timeutil_sync_skew_to_ppb(skew);
 	zassert_equal(ppb, INT32_MIN,
 		      "unexpected above limit: %.10g %d", skew, ppb);
 }

 ZTEST(timeutil_api, test_sync)
 {
 	test_state_update();
 	test_state_set_skew();
 	test_estimate_skew();
 	test_ref_from_local();
 	test_local_from_ref();
 	test_large_linearity();
 	test_skew_to_ppb();
 }
	/*
	* Copyright 2020 Peter Bigot Consulting
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	/* Tests for the time_sync data structures */

	#include <string.h>
	#include <zephyr/ztest.h>
	#include "timeutil_test.h"

	static const struct timeutil_sync_config cfg1 = {
	.ref_Hz = USEC_PER_SEC,
	.local_Hz = 32768,
	};

	static const struct timeutil_sync_config cfg2 = {
	.ref_Hz = NSEC_PER_SEC,
	.local_Hz = 100,
	};

	static inline uint64_t scale_ref(uint32_t factor,
	const struct timeutil_sync_config *cfg)
	{
	return (uint64_t)factor * (uint64_t)cfg->ref_Hz;
	}

	static inline uint64_t scale_local(uint32_t factor,
	const struct timeutil_sync_config *cfg)
	{
	return (uint64_t)factor * (uint64_t)cfg->local_Hz;
	}

	static inline int64_t scale_local_signed(int32_t factor,
	const struct timeutil_sync_config *cfg)
	{
	return (int64_t)factor * (int64_t)cfg->local_Hz;
	}


	static void test_state_update(void)
	{
	struct timeutil_sync_instant si = { 0 };
	struct timeutil_sync_state ss = { 0 };
	int rv = timeutil_sync_state_update(&ss, &si);

	zassert_equal(rv, -EINVAL,
	"invalid init got: %d", rv);
	zassert_equal(ss.base.ref, 0,
	"unexpected base ref");
	zassert_equal(ss.skew, 0,
	"unexpected skew");

	si.ref = 1;
	rv = timeutil_sync_state_update(&ss, &si);
	zassert_equal(rv, 0,
	"valid first init got: %d", rv);
	zassert_equal(ss.base.ref, 1,
	"base not updated");
	zassert_equal(ss.latest.ref, 0,
	"unexpected latest ref");
	zassert_equal(ss.skew, 1.0,
	"unexpected skew");

	rv = timeutil_sync_state_update(&ss, &si);
	zassert_equal(rv, -EINVAL,
	"non-increasing ref got: %d", rv);
	zassert_equal(ss.base.ref, 1,
	"unexpected base ref");
	zassert_equal(ss.base.local, 0,
	"unexpected base local");
	zassert_equal(ss.latest.ref, 0,
	"unexpected latest ref");

	si.ref += 1;
	rv = timeutil_sync_state_update(&ss, &si);
	zassert_equal(rv, -EINVAL,
	"non-increasing local got: %d", rv);
	zassert_equal(ss.latest.ref, 0,
	"unexpected latest ref");

	si.local += 20;
	rv = timeutil_sync_state_update(&ss, &si);
	zassert_equal(rv, 1,
	"increasing got: %d", rv);
	zassert_equal(ss.base.ref, 1,
	"unexpected base ref");
	zassert_equal(ss.base.local, 0,
	"unexpected base local");
	zassert_equal(ss.latest.ref, si.ref,
	"unexpected latest ref");
	zassert_equal(ss.latest.local, si.local,
	"unexpected latest local");
	}

	static void test_state_set_skew(void)
	{
	struct timeutil_sync_instant si = {
	.ref = 1,
	};
	struct timeutil_sync_state ss = {
	.cfg = &cfg1,
	};
	float skew = 0.99;
	int rv = timeutil_sync_state_update(&ss, &si);

	zassert_equal(rv, 0,
	"valid first init got: %d", rv);
	zassert_equal(ss.skew, 1.0,
	"unexpected skew");

	rv = timeutil_sync_state_set_skew(&ss, -1.0, NULL);
	zassert_equal(rv, -EINVAL,
	"negative skew set got: %d", rv);
	zassert_equal(ss.skew, 1.0,
	"unexpected skew");

	rv = timeutil_sync_state_set_skew(&ss, 0.0, NULL);
	zassert_equal(rv, -EINVAL,
	"zero skew set got: %d", rv);
	zassert_equal(ss.skew, 1.0,
	"unexpected skew");

	rv = timeutil_sync_state_set_skew(&ss, skew, NULL);
	zassert_equal(rv, 0,
	"valid skew set got: %d", rv);
	zassert_equal(ss.skew, skew,
	"unexpected skew");
	zassert_equal(ss.base.ref, si.ref,
	"unexpected base ref");
	zassert_equal(ss.base.local, si.local,
	"unexpected base ref");

	skew = 1.01;
	si.ref += 5;
	si.local += 3;

	rv = timeutil_sync_state_set_skew(&ss, skew, &si);
	zassert_equal(rv, 0,
	"valid skew set got: %d", rv);
	zassert_equal(ss.skew, skew,
	"unexpected skew");
	zassert_equal(ss.base.ref, si.ref,
	"unexpected base ref");
	zassert_equal(ss.base.local, si.local,
	"unexpected base ref");
	zassert_equal(ss.latest.ref, 0,
	"uncleared latest ref");
	zassert_equal(ss.latest.local, 0,
	"uncleared latest local");
	}

	static void test_estimate_skew(void)
	{
	struct timeutil_sync_state ss = {
	.cfg = &cfg1,
	};
	struct timeutil_sync_instant si0 = {
	.ref = cfg1.ref_Hz,
	};
	struct timeutil_sync_instant si1 = {
	.ref = si0.ref + cfg1.ref_Hz,
	.local = si0.local + cfg1.local_Hz,
	};
	float skew = 0.0;

	skew = timeutil_sync_estimate_skew(&ss);
	zassert_equal(skew, 0,
	"unexpected uninit skew: %f", skew);

	int rv = timeutil_sync_state_update(&ss, &si0);

	zassert_equal(rv, 0,
	"valid init got: %d", rv);

	skew = timeutil_sync_estimate_skew(&ss);
	zassert_equal(skew, 0,
	"unexpected base-only skew: %f", skew);

	rv = timeutil_sync_state_update(&ss, &si1);
	zassert_equal(rv, 1,
	"valid update got: %d", rv);

	zassert_equal(ss.base.ref, si0.ref,
	"unexpected base ref");
	zassert_equal(ss.base.local, si0.local,
	"unexpected base local");
	zassert_equal(ss.latest.ref, si1.ref,
	"unexpected latest ref");
	zassert_equal(ss.latest.local, si1.local,
	"unexpected latest local");

	skew = timeutil_sync_estimate_skew(&ss);
	zassert_equal(skew, 1.0,
	"unexpected linear skew: %f", skew);

	/* Local advanced half as far as it should: scale by 2 to
	* correct.
	*/
	ss.latest.local = scale_local(1, ss.cfg) / 2;
	skew = timeutil_sync_estimate_skew(&ss);
	zassert_equal(skew, 2.0,
	"unexpected half skew: %f", skew);

	/* Local advanced twice as far as it should: scale by 1/2 to
	* correct.
	*/
	ss.latest.local = scale_local(2, ss.cfg);
	skew = timeutil_sync_estimate_skew(&ss);
	zassert_equal(skew, 0.5,
	"unexpected double skew: %f", skew);
	}

	static void tref_from_local(const char *tag,
	const struct timeutil_sync_config *cfg)
	{
	struct timeutil_sync_state ss = {
	.cfg = cfg,
	};
	struct timeutil_sync_instant si0 = {
	/* Absolute local 0 is 5 s ref */
	.ref = scale_ref(10, cfg),
	.local = scale_local(5, cfg),
	};
	uint64_t ref = 0;
	int rv = timeutil_sync_ref_from_local(&ss, 0, &ref);

	zassert_equal(rv, -EINVAL,
	"%s: unexpected uninit convert: %d", tag, rv);

	rv = timeutil_sync_state_update(&ss, &si0);
	zassert_equal(rv, 0,
	"%s: unexpected init: %d", tag, rv);
	zassert_equal(ss.skew, 1.0,
	"%s: unexpected skew");

	rv = timeutil_sync_ref_from_local(&ss, ss.base.local, NULL);
	zassert_equal(rv, -EINVAL,
	"%s: unexpected missing dest: %d", tag, rv);

	rv = timeutil_sync_ref_from_local(&ss, ss.base.local, &ref);
	zassert_equal(rv, 0,
	"%s: unexpected fail", tag, rv);
	zassert_equal(ref, ss.base.ref,
	"%s: unexpected base convert", tag);

	rv = timeutil_sync_ref_from_local(&ss, 0, &ref);
	zassert_equal(rv, 0,
	"%s: unexpected local=0 fail", tag, rv);
	zassert_equal(ref, scale_ref(5, cfg),
	"%s: unexpected local=0 ref", tag);

	rv = timeutil_sync_ref_from_local(&ss, ss.base.local, &ref);
	zassert_equal(rv, 0,
	"%s: unexpected local=base fail", tag, rv);
	zassert_equal(ref, ss.base.ref,
	"%s: unexpected local=base ref", tag);

	rv = timeutil_sync_ref_from_local(&ss, ss.base.local
	+ scale_local(2, cfg), &ref);
	zassert_equal(rv, 0,
	"%s: unexpected local=base+2s fail %d", tag, rv);
	zassert_equal(ref, ss.base.ref + scale_ref(2, cfg),
	"%s: unexpected local=base+2s ref", tag);

	rv = timeutil_sync_ref_from_local(&ss, (int64_t)ss.base.local
	- scale_local(12, cfg), &ref);
	zassert_equal(rv, -ERANGE,
	"%s: unexpected local=base-12s res %u", tag, rv);

	/* Skew of 0.5 means local runs at double speed */
	rv = timeutil_sync_state_set_skew(&ss, 0.5, NULL);
	zassert_equal(rv, 0,
	"%s: failed set skew", tag);

	/* Local at double speed corresponds to half advance in ref */
	rv = timeutil_sync_ref_from_local(&ss, ss.base.local
	+ scale_local(2, cfg), &ref);
	zassert_equal(rv, 1,
	"%s: unexpected skew adj fail", tag);
	zassert_equal(ref, ss.base.ref + cfg->ref_Hz,
	"%s: unexpected skew adj convert", tag);
	}

	static void test_ref_from_local(void)
	{
	tref_from_local("std", &cfg1);
	tref_from_local("ext", &cfg2);
	}

	static void tlocal_from_ref(const char *tag,
	const struct timeutil_sync_config *cfg)
	{
	struct timeutil_sync_state ss = {
	.cfg = cfg,
	};
	struct timeutil_sync_instant si0 = {
	/* Absolute local 0 is 5 s ref */
	.ref = scale_ref(10, cfg),
	.local = scale_local(5, cfg),
	};
	int64_t local = 0;
	int rv = timeutil_sync_local_from_ref(&ss, 0, &local);

	zassert_equal(rv, -EINVAL,
	"%s: unexpected uninit convert: %d", tag, rv);

	rv = timeutil_sync_state_update(&ss, &si0);
	zassert_equal(rv, 0,
	"%s: unexpected init: %d", tag, rv);
	zassert_equal(ss.skew, 1.0,
	"%s: unexpected skew", tag);

	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref, NULL);
	zassert_equal(rv, -EINVAL,
	"%s: unexpected missing dest", tag, rv);

	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref, &local);
	zassert_equal(rv, 0,
	"%s: unexpected fail", tag, rv);
	zassert_equal(local, ss.base.local,
	"%s: unexpected base convert", tag);

	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref
	+ scale_ref(2, cfg), &local);
	zassert_equal(rv, 0,
	"%s: unexpected base+2s fail", tag);
	zassert_equal(local, ss.base.local + scale_local(2, cfg),
	"%s: unexpected base+2s convert", tag);

	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref
	- scale_ref(7, cfg), &local);
	zassert_equal(rv, 0,
	"%s: unexpected base-7s fail", tag);
	zassert_equal(local, scale_local_signed(-2, cfg),
	"%s: unexpected base-7s convert", tag);


	/* Skew of 0.5 means local runs at double speed */
	rv = timeutil_sync_state_set_skew(&ss, 0.5, NULL);
	zassert_equal(rv, 0,
	"%s: failed set skew", tag);

	/* Local at double speed corresponds to half advance in ref */
	rv = timeutil_sync_local_from_ref(&ss, ss.base.ref
	+ scale_ref(1, cfg) / 2, &local);
	zassert_equal(rv, 1,
	"%s: unexpected skew adj fail", tag);
	zassert_equal(local, ss.base.local + scale_local(1, cfg),
	"%s: unexpected skew adj convert", tag);
	}

	static void test_local_from_ref(void)
	{
	tlocal_from_ref("std", &cfg1);
	tlocal_from_ref("ext", &cfg2);
	}

	static void test_large_linearity(void)
	{
	uint64_t inputs[] = {
	1000ULL,
	3999999999ULL,
	4000000000ULL,
	4000000001ULL,
	UINT64_MAX / 10000000
	};
	uint64_t ref_out;
	int64_t loc_out;
	int rv;

	const struct timeutil_sync_config unity = {
	.ref_Hz = 1000,
	.local_Hz = 1000,
	};
	struct timeutil_sync_instant inst = {
	.ref = 200,
	.local = 100
	};
	struct timeutil_sync_state ss = {
	.cfg = &unity,
	};
	uint64_t offset = inst.ref - inst.local;

	timeutil_sync_state_set_skew(&ss, 1.0f, &inst);

	for (int i = 0; i < ARRAY_SIZE(inputs); i++) {
	rv = timeutil_sync_ref_from_local(&ss, inputs[i], &ref_out);
	zassert_equal(rv, 0, "Unexpected conversion fail");
	zassert_equal(ref_out, inputs[i] + offset,
	"Large unity local->ref conversion fail");

	rv = timeutil_sync_local_from_ref(&ss, inputs[i], &loc_out);
	zassert_equal(rv, 0, "Unexpected conversion fail");
	zassert_equal(loc_out, inputs[i] - offset,
	"Large unity ref->local conversion fail");
	}
	}

	static void test_skew_to_ppb(void)
	{
	float skew = 1.0;
	int32_t ppb = timeutil_sync_skew_to_ppb(skew);

	zassert_equal(ppb, 0,
	"unexpected perfect: %d", ppb);

	skew = 0.999976;
	ppb = timeutil_sync_skew_to_ppb(skew);
	zassert_equal(ppb, 24020,
	"unexpected fast: %d", ppb);

	skew = 1.000022;
	ppb = timeutil_sync_skew_to_ppb(skew);
	zassert_equal(ppb, -22053,
	"unexpected slow: %d", ppb);

	skew = 3.147483587;
	ppb = timeutil_sync_skew_to_ppb(skew);
	zassert_equal(ppb, -2147483587,
	"unexpected near limit: %.10g %d", skew, ppb);
	skew = 3.147483826;
	ppb = timeutil_sync_skew_to_ppb(skew);
	zassert_equal(ppb, INT32_MIN,
	"unexpected above limit: %.10g %d", skew, ppb);
	}

	ZTEST(timeutil_api, test_sync)
	{
	test_state_update();
	test_state_set_skew();
	test_estimate_skew();
	test_ref_from_local();
	test_local_from_ref();
	test_large_linearity();
	test_skew_to_ppb();
	}