s390x/exittime.c - kvm-unit-tests - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */
 /*
  * Measure run time of various instructions. Can be used to find runtime
  * regressions of instructions which cause exits.
  *
  * Copyright IBM Corp. 2022
  *
  * Authors:
  *  Nico Boehr <nrb@linux.ibm.com>
  */
 #include <libcflat.h>
 #include <smp.h>
 #include <sclp.h>
 #include <hardware.h>
 #include <asm/time.h>
 #include <asm/sigp.h>
 #include <asm/interrupt.h>
 #include <asm/page.h>

 const uint64_t iters_to_normalize_to = 10000;
 char pagebuf[PAGE_SIZE] __attribute__((__aligned__(PAGE_SIZE)));

 static void test_sigp_sense_running(long destcpu)
 {
 	smp_sigp(destcpu, SIGP_SENSE_RUNNING, 0, NULL);
 }

 static void test_nop(long ignore)
 {
 	/* nops don't trap into the hypervisor, so let's test them for reference */
 	asm volatile(
 		"nop"
 		:
 		:
 		: "memory"
 	);
 }

 static void test_diag9c(long destcpu)
 {
 	asm volatile(
 		"diag %[destcpu],0,0x9c"
 		:
 		: [destcpu] "d" (destcpu)
 	);
 }

 static long setup_get_this_cpuaddr(long ignore)
 {
 	return stap();
 }

 static void test_diag44(long ignore)
 {
 	asm volatile(
 		"diag 0,0,0x44"
 	);
 }

 static void test_stnsm(long ignore)
 {
 	int out;

 	asm volatile(
 		"stnsm %[out],0xff"
 		: [out] "=Q" (out)
 	);
 }

 static void test_stosm(long ignore)
 {
 	int out;

 	asm volatile(
 		"stosm %[out],0"
 		: [out] "=Q" (out)
 	);
 }

 static long setup_ssm(long ignore)
 {
 	long system_mask = 0;

 	asm volatile(
 		"stosm %[system_mask],0"
 		: [system_mask] "=Q" (system_mask)
 	);

 	return system_mask;
 }

 static void test_ssm(long old_system_mask)
 {
 	asm volatile(
 		"ssm %[old_system_mask]"
 		:
 		: [old_system_mask] "Q" (old_system_mask)
 	);
 }

 static long setup_lctl4(long ignore)
 {
 	long ctl4_orig = 0;

 	asm volatile(
 		"stctg 4,4,%[ctl4_orig]"
 		: [ctl4_orig] "=S" (ctl4_orig)
 	);

 	return ctl4_orig;
 }

 static void test_lctl4(long ctl4_orig)
 {
 	asm volatile(
 		"lctlg 4,4,%[ctl4_orig]"
 		:
 		: [ctl4_orig] "S" (ctl4_orig)
 	);
 }

 static void test_stpx(long ignore)
 {
 	unsigned int prefix;

 	asm volatile(
 		"stpx %[prefix]"
 		: [prefix] "=Q" (prefix)
 	);
 }

 static void test_stfl(long ignore)
 {
 	asm volatile(
 		"stfl 0"
 		:
 		:
 		: "memory"
 	);
 }

 static void test_epsw(long ignore)
 {
 	long r1, r2;

 	asm volatile(
 		"epsw %[r1], %[r2]"
 		: [r1] "=d" (r1), [r2] "=d" (r2)
 	);
 }

 static void test_illegal(long ignore)
 {
 	expect_pgm_int();
 	asm volatile(
 		".word 0"
 	);
 	clear_pgm_int();
 }

 static long setup_servc(long arg)
 {
 	memset(pagebuf, 0, PAGE_SIZE);
 	return arg;
 }

 static void test_servc(long ignore)
 {
 	SCCB *sccb = (SCCB *) pagebuf;

 	sccb->h.length = 8;
 	servc(0, (unsigned long) sccb);
 }

 static void test_stsi(long fc)
 {
 	stsi(pagebuf, fc, 2, 2);
 }

 struct test {
 	const char *name;
 	bool supports_tcg;
 	/*
 	 * When non-null, will be called once before running the test loop.
 	 * Its return value will be given as argument to testfunc.
 	 */
 	long (*setupfunc)(long arg);
 	void (*testfunc)(long arg);
 	long arg;
 	long iters;
 } const exittime_tests[] = {
 	{"nop",                   true,  NULL,                   test_nop,                0, 200000 },
 	{"sigp sense running(0)", true,  NULL,                   test_sigp_sense_running, 0, 20000 },
 	{"sigp sense running(1)", true,  NULL,                   test_sigp_sense_running, 1, 20000 },
 	{"diag9c(self)",          false, setup_get_this_cpuaddr, test_diag9c,             0, 2000 },
 	{"diag9c(0)",             false, NULL,                   test_diag9c,             0, 2000 },
 	{"diag9c(1)",             false, NULL,                   test_diag9c,             1, 2000 },
 	{"diag44",                true,  NULL,                   test_diag44,             0, 2000 },
 	{"stnsm",                 true,  NULL,                   test_stnsm,              0, 200000 },
 	{"stosm",                 true,  NULL,                   test_stosm,              0, 200000 },
 	{"ssm",                   true,  setup_ssm,              test_ssm,                0, 200000 },
 	{"lctl4",                 true,  setup_lctl4,            test_lctl4,              0, 20000 },
 	{"stpx",                  true,  NULL,                   test_stpx,               0, 2000 },
 	{"stfl",                  true,  NULL,                   test_stfl,               0, 2000 },
 	{"epsw",                  true,  NULL,                   test_epsw,               0, 20000 },
 	{"illegal",               true,  NULL,                   test_illegal,            0, 2000 },
 	{"servc",                 true,  setup_servc,            test_servc,              0, 2000 },
 	{"stsi122",               true,  NULL,                   test_stsi,               1, 200 },
 	{"stsi222",               true,  NULL,                   test_stsi,               2, 200 },
 	{"stsi322",               true,  NULL,                   test_stsi,               3, 200 },
 };

 struct test_result {
 	uint64_t total;
 	uint64_t best;
 	uint64_t average;
 	uint64_t worst;
 };

 static uint64_t tod_to_us(uint64_t tod)
 {
 	return tod >> STCK_SHIFT_US;
 }

 static uint64_t tod_to_ns(uint64_t tod)
 {
 	return tod_to_us(tod * 1000);
 }

 static uint64_t normalize_iters(uint64_t value_to_normalize, uint64_t iters)
 {
 	return value_to_normalize * iters_to_normalize_to / iters;
 }

 static void report_iteration_result(struct test const* test, struct test_result const* test_result)
 {
 	uint64_t total = tod_to_ns(normalize_iters(test_result->total, test->iters)),
 		 best = tod_to_ns(normalize_iters(test_result->best, test->iters)),
 		 average = tod_to_ns(normalize_iters(test_result->average, test->iters)),
 		 worst = tod_to_ns(normalize_iters(test_result->worst, test->iters));

 	report_pass(
 		"total/best/avg/worst %lu.%03lu/%lu.%03lu/%lu.%03lu/%lu.%03lu us",
 		total / 1000, total % 1000,
 		best / 1000, best % 1000,
 		average / 1000, average % 1000,
 		worst / 1000, worst % 1000
 	);
 }

 int main(void)
 {
 	int i, j, k, testfunc_arg;
 	const int outer_iters = 100;
 	struct test const *current_test;
 	struct test_result result;
 	uint64_t start, end, elapsed;

 	report_prefix_push("exittime");
 	report_info("reporting total/best/avg/worst normalized to %lu iterations", iters_to_normalize_to);

 	for (i = 0; i < ARRAY_SIZE(exittime_tests); i++) {
 		current_test = &exittime_tests[i];
 		result.total = 0;
 		result.worst = 0;
 		result.best = -1;
 		report_prefix_pushf("%s", current_test->name);

 		if (host_is_tcg() && !current_test->supports_tcg) {
 			report_skip("not supported under TCG");
 			report_prefix_pop();
 			continue;
 		}

 		testfunc_arg = current_test->arg;
 		if (current_test->setupfunc)
 			testfunc_arg = current_test->setupfunc(testfunc_arg);

 		for (j = 0; j < outer_iters; j++) {
 			stckf(&start);
 			for (k = 0; k < current_test->iters; k++)
 				current_test->testfunc(testfunc_arg);
 			stckf(&end);
 			elapsed = end - start;
 			result.best = MIN(result.best, elapsed);
 			result.worst = MAX(result.worst, elapsed);
 			result.total += elapsed;
 		}
 		result.average = result.total / outer_iters;
 		report_iteration_result(current_test, &result);
 		report_prefix_pop();
 	}

 	report_prefix_pop();
 	return report_summary();
 }
	/* SPDX-License-Identifier: GPL-2.0-only */
	/*
	* Measure run time of various instructions. Can be used to find runtime
	* regressions of instructions which cause exits.
	*
	* Copyright IBM Corp. 2022
	*
	* Authors:
	* Nico Boehr <nrb@linux.ibm.com>
	*/
	#include <libcflat.h>
	#include <smp.h>
	#include <sclp.h>
	#include <hardware.h>
	#include <asm/time.h>
	#include <asm/sigp.h>
	#include <asm/interrupt.h>
	#include <asm/page.h>

	const uint64_t iters_to_normalize_to = 10000;
	char pagebuf[PAGE_SIZE] __attribute__((__aligned__(PAGE_SIZE)));

	static void test_sigp_sense_running(long destcpu)
	{
	smp_sigp(destcpu, SIGP_SENSE_RUNNING, 0, NULL);
	}

	static void test_nop(long ignore)
	{
	/* nops don't trap into the hypervisor, so let's test them for reference */
	asm volatile(
	"nop"
	:
	:
	: "memory"
	);
	}

	static void test_diag9c(long destcpu)
	{
	asm volatile(
	"diag %[destcpu],0,0x9c"
	:
	: [destcpu] "d" (destcpu)
	);
	}

	static long setup_get_this_cpuaddr(long ignore)
	{
	return stap();
	}

	static void test_diag44(long ignore)
	{
	asm volatile(
	"diag 0,0,0x44"
	);
	}

	static void test_stnsm(long ignore)
	{
	int out;

	asm volatile(
	"stnsm %[out],0xff"
	: [out] "=Q" (out)
	);
	}

	static void test_stosm(long ignore)
	{
	int out;

	asm volatile(
	"stosm %[out],0"
	: [out] "=Q" (out)
	);
	}

	static long setup_ssm(long ignore)
	{
	long system_mask = 0;

	asm volatile(
	"stosm %[system_mask],0"
	: [system_mask] "=Q" (system_mask)
	);

	return system_mask;
	}

	static void test_ssm(long old_system_mask)
	{
	asm volatile(
	"ssm %[old_system_mask]"
	:
	: [old_system_mask] "Q" (old_system_mask)
	);
	}

	static long setup_lctl4(long ignore)
	{
	long ctl4_orig = 0;

	asm volatile(
	"stctg 4,4,%[ctl4_orig]"
	: [ctl4_orig] "=S" (ctl4_orig)
	);

	return ctl4_orig;
	}

	static void test_lctl4(long ctl4_orig)
	{
	asm volatile(
	"lctlg 4,4,%[ctl4_orig]"
	:
	: [ctl4_orig] "S" (ctl4_orig)
	);
	}

	static void test_stpx(long ignore)
	{
	unsigned int prefix;

	asm volatile(
	"stpx %[prefix]"
	: [prefix] "=Q" (prefix)
	);
	}

	static void test_stfl(long ignore)
	{
	asm volatile(
	"stfl 0"
	:
	:
	: "memory"
	);
	}

	static void test_epsw(long ignore)
	{
	long r1, r2;

	asm volatile(
	"epsw %[r1], %[r2]"
	: [r1] "=d" (r1), [r2] "=d" (r2)
	);
	}

	static void test_illegal(long ignore)
	{
	expect_pgm_int();
	asm volatile(
	".word 0"
	);
	clear_pgm_int();
	}

	static long setup_servc(long arg)
	{
	memset(pagebuf, 0, PAGE_SIZE);
	return arg;
	}

	static void test_servc(long ignore)
	{
	SCCB sccb = (SCCB ) pagebuf;

	sccb->h.length = 8;
	servc(0, (unsigned long) sccb);
	}

	static void test_stsi(long fc)
	{
	stsi(pagebuf, fc, 2, 2);
	}

	struct test {
	const char *name;
	bool supports_tcg;
	/*
	* When non-null, will be called once before running the test loop.
	* Its return value will be given as argument to testfunc.
	*/
	long (*setupfunc)(long arg);
	void (*testfunc)(long arg);
	long arg;
	long iters;
	} const exittime_tests[] = {
	{"nop", true, NULL, test_nop, 0, 200000 },
	{"sigp sense running(0)", true, NULL, test_sigp_sense_running, 0, 20000 },
	{"sigp sense running(1)", true, NULL, test_sigp_sense_running, 1, 20000 },
	{"diag9c(self)", false, setup_get_this_cpuaddr, test_diag9c, 0, 2000 },
	{"diag9c(0)", false, NULL, test_diag9c, 0, 2000 },
	{"diag9c(1)", false, NULL, test_diag9c, 1, 2000 },
	{"diag44", true, NULL, test_diag44, 0, 2000 },
	{"stnsm", true, NULL, test_stnsm, 0, 200000 },
	{"stosm", true, NULL, test_stosm, 0, 200000 },
	{"ssm", true, setup_ssm, test_ssm, 0, 200000 },
	{"lctl4", true, setup_lctl4, test_lctl4, 0, 20000 },
	{"stpx", true, NULL, test_stpx, 0, 2000 },
	{"stfl", true, NULL, test_stfl, 0, 2000 },
	{"epsw", true, NULL, test_epsw, 0, 20000 },
	{"illegal", true, NULL, test_illegal, 0, 2000 },
	{"servc", true, setup_servc, test_servc, 0, 2000 },
	{"stsi122", true, NULL, test_stsi, 1, 200 },
	{"stsi222", true, NULL, test_stsi, 2, 200 },
	{"stsi322", true, NULL, test_stsi, 3, 200 },
	};

	struct test_result {
	uint64_t total;
	uint64_t best;
	uint64_t average;
	uint64_t worst;
	};

	static uint64_t tod_to_us(uint64_t tod)
	{
	return tod >> STCK_SHIFT_US;
	}

	static uint64_t tod_to_ns(uint64_t tod)
	{
	return tod_to_us(tod * 1000);
	}

	static uint64_t normalize_iters(uint64_t value_to_normalize, uint64_t iters)
	{
	return value_to_normalize * iters_to_normalize_to / iters;
	}

	static void report_iteration_result(struct test const* test, struct test_result const* test_result)
	{
	uint64_t total = tod_to_ns(normalize_iters(test_result->total, test->iters)),
	best = tod_to_ns(normalize_iters(test_result->best, test->iters)),
	average = tod_to_ns(normalize_iters(test_result->average, test->iters)),
	worst = tod_to_ns(normalize_iters(test_result->worst, test->iters));

	report_pass(
	"total/best/avg/worst %lu.%03lu/%lu.%03lu/%lu.%03lu/%lu.%03lu us",
	total / 1000, total % 1000,
	best / 1000, best % 1000,
	average / 1000, average % 1000,
	worst / 1000, worst % 1000
	);
	}

	int main(void)
	{
	int i, j, k, testfunc_arg;
	const int outer_iters = 100;
	struct test const *current_test;
	struct test_result result;
	uint64_t start, end, elapsed;

	report_prefix_push("exittime");
	report_info("reporting total/best/avg/worst normalized to %lu iterations", iters_to_normalize_to);

	for (i = 0; i < ARRAY_SIZE(exittime_tests); i++) {
	current_test = &exittime_tests[i];
	result.total = 0;
	result.worst = 0;
	result.best = -1;
	report_prefix_pushf("%s", current_test->name);

	if (host_is_tcg() && !current_test->supports_tcg) {
	report_skip("not supported under TCG");
	report_prefix_pop();
	continue;
	}

	testfunc_arg = current_test->arg;
	if (current_test->setupfunc)
	testfunc_arg = current_test->setupfunc(testfunc_arg);

	for (j = 0; j < outer_iters; j++) {
	stckf(&start);
	for (k = 0; k < current_test->iters; k++)
	current_test->testfunc(testfunc_arg);
	stckf(&end);
	elapsed = end - start;
	result.best = MIN(result.best, elapsed);
	result.worst = MAX(result.worst, elapsed);
	result.total += elapsed;
	}
	result.average = result.total / outer_iters;
	report_iteration_result(current_test, &result);
	report_prefix_pop();
	}

	report_prefix_pop();
	return report_summary();
	}