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

 /* SPDX-License-Identifier: GPL-2.0-only */
 /*
  * Migration Test for s390x
  *
  * Copyright IBM Corp. 2022
  *
  * Authors:
  *  Nico Boehr <nrb@linux.ibm.com>
  */
 #include <libcflat.h>
 #include <migrate.h>
 #include <asm/arch_def.h>
 #include <asm/vector.h>
 #include <asm/barrier.h>
 #include <asm/facility.h>
 #include <gs.h>
 #include <bitops.h>
 #include <smp.h>

 static struct gs_cb gs_cb;
 static struct gs_epl gs_epl;

 /* set by CPU1 to signal it has completed */
 static int flag_thread_complete;
 /* set by CPU0 to signal migration has completed */
 static int flag_migration_complete;

 static void write_gs_regs(void)
 {
 	const unsigned long gs_area = 0x2000000;
 	const unsigned long gsc = 25; /* align = 32 M, section size = 512K */

 	gs_cb.gsd = gs_area | gsc;
 	gs_cb.gssm = 0xfeedc0ffe;
 	gs_cb.gs_epl_a = (uint64_t) &gs_epl;

 	load_gs_cb(&gs_cb);
 }

 static void check_gs_regs(void)
 {
 	struct gs_cb gs_cb_after_migration;

 	store_gs_cb(&gs_cb_after_migration);

 	report_prefix_push("guarded-storage registers");

 	report(gs_cb_after_migration.gsd == gs_cb.gsd, "gsd matches");
 	report(gs_cb_after_migration.gssm == gs_cb.gssm, "gssm matches");
 	report(gs_cb_after_migration.gs_epl_a == gs_cb.gs_epl_a, "gs_epl_a matches");

 	report_prefix_pop();
 }

 static bool have_vector_facility(void)
 {
 	return test_facility(129);
 }

 static bool have_guarded_storage_facility(void)
 {
 	return test_facility(133);
 }

 static void test_func(void)
 {
 	uint8_t expected_vec_contents[VEC_REGISTER_NUM][VEC_REGISTER_SIZE];
 	uint8_t actual_vec_contents[VEC_REGISTER_NUM][VEC_REGISTER_SIZE];
 	uint8_t *vec_reg;
 	int i;
 	int vec_result = 0;

 	if (have_guarded_storage_facility()) {
 		ctl_set_bit(2, CTL2_GUARDED_STORAGE);

 		write_gs_regs();
 	}

 	if (have_vector_facility()) {
 		for (i = 0; i < VEC_REGISTER_NUM; i++) {
 			vec_reg = &expected_vec_contents[i][0];
 			/* i+1 to avoid zero content */
 			memset(vec_reg, i + 1, VEC_REGISTER_SIZE);
 		}

 		ctl_set_bit(0, CTL0_VECTOR);

 		/*
 		 * It is important loading the vector/floating point registers and
 		 * comparing their contents occurs in the same inline assembly block.
 		 * Otherwise, the compiler is allowed to re-use the registers for
 		 * something else in between.
 		 * For this very reason, this also runs on a second CPU, so all the
 		 * complex console stuff can be done in C on the first CPU and here we
 		 * just need to wait for it to set the flag.
 		 */
 		asm inline(
 			"	.machine z13\n"
 			/* load vector registers: vlm handles at most 16 registers at a time */
 			"	vlm 0,15, 0(%[expected_vec_reg])\n"
 			"	vlm 16,31, 256(%[expected_vec_reg])\n"
 			/* inform CPU0 we are done, it will request migration */
 			"	mvhi %[flag_thread_complete], 1\n"
 			/* wait for migration to finish */
 			"0:	clfhsi %[flag_migration_complete], 1\n"
 			"	jnz 0b\n"
 			/*
 			 * store vector register contents in actual_vec_reg: vstm
 			 * handles at most 16 registers at a time
 			 */
 			"	vstm 0,15, 0(%[actual_vec_reg])\n"
 			"	vstm 16,31, 256(%[actual_vec_reg])\n"
 			/*
 			 * compare the contents in expected_vec_reg with actual_vec_reg:
 			 * clc handles at most 256 bytes at a time
 			 */
 			"	clc 0(256, %[expected_vec_reg]), 0(%[actual_vec_reg])\n"
 			"	jnz 1f\n"
 			"	clc 256(256, %[expected_vec_reg]), 256(%[actual_vec_reg])\n"
 			"	jnz 1f\n"
 			/* success */
 			"	mvhi %[vec_result], 1\n"
 			"1:"
 			:
 			: [expected_vec_reg] "a"(expected_vec_contents),
 			  [actual_vec_reg] "a"(actual_vec_contents),
 			  [flag_thread_complete] "Q"(flag_thread_complete),
 			  [flag_migration_complete] "Q"(flag_migration_complete),
 			  [vec_result] "Q"(vec_result)
 			: "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "v8", "v9",
 			  "v10", "v11", "v12", "v13", "v14", "v15", "v16", "v17", "v18",
 			  "v19", "v20", "v21", "v22", "v23", "v24", "v25", "v26", "v27",
 			  "v28", "v29", "v30", "v31", "cc", "memory"
 		);

 		report(vec_result, "vector contents match");

 		report(stctg(0) & BIT(CTL0_VECTOR), "ctl0 vector bit set");

 		ctl_clear_bit(0, CTL0_VECTOR);
 	} else {
 		flag_thread_complete = 1;
 		while(!flag_migration_complete)
 			mb();
 	}

 	report_pass("Migrated");

 	if (have_guarded_storage_facility()) {
 		check_gs_regs();

 		report(stctg(2) & BIT(CTL2_GUARDED_STORAGE), "ctl2 guarded-storage bit set");

 		ctl_clear_bit(2, CTL2_GUARDED_STORAGE);
 	}

 	flag_thread_complete = 1;
 }

 int main(void)
 {
 	/* don't say migrate here otherwise we will migrate right away */
 	report_prefix_push("migration");

 	if (smp_query_num_cpus() == 1) {
 		report_skip("need at least 2 cpus for this test");
 		migrate_skip();
 		goto done;
 	}

 	/* Second CPU does the actual tests */
 	smp_cpu_setup(1, PSW_WITH_CUR_MASK(test_func));

 	/* wait for thread setup */
 	while(!flag_thread_complete)
 		mb();
 	flag_thread_complete = 0;

 	migrate_once();

 	flag_migration_complete = 1;

 	/* wait for thread to complete assertions */
 	while(!flag_thread_complete)
 		mb();

 	smp_cpu_destroy(1);

 done:
 	report_prefix_pop();
 	return report_summary();
 }
	/* SPDX-License-Identifier: GPL-2.0-only */
	/*
	* Migration Test for s390x
	*
	* Copyright IBM Corp. 2022
	*
	* Authors:
	* Nico Boehr <nrb@linux.ibm.com>
	*/
	#include <libcflat.h>
	#include <migrate.h>
	#include <asm/arch_def.h>
	#include <asm/vector.h>
	#include <asm/barrier.h>
	#include <asm/facility.h>
	#include <gs.h>
	#include <bitops.h>
	#include <smp.h>

	static struct gs_cb gs_cb;
	static struct gs_epl gs_epl;

	/* set by CPU1 to signal it has completed */
	static int flag_thread_complete;
	/* set by CPU0 to signal migration has completed */
	static int flag_migration_complete;

	static void write_gs_regs(void)
	{
	const unsigned long gs_area = 0x2000000;
	const unsigned long gsc = 25; /* align = 32 M, section size = 512K */

	gs_cb.gsd = gs_area \| gsc;
	gs_cb.gssm = 0xfeedc0ffe;
	gs_cb.gs_epl_a = (uint64_t) &gs_epl;

	load_gs_cb(&gs_cb);
	}

	static void check_gs_regs(void)
	{
	struct gs_cb gs_cb_after_migration;

	store_gs_cb(&gs_cb_after_migration);

	report_prefix_push("guarded-storage registers");

	report(gs_cb_after_migration.gsd == gs_cb.gsd, "gsd matches");
	report(gs_cb_after_migration.gssm == gs_cb.gssm, "gssm matches");
	report(gs_cb_after_migration.gs_epl_a == gs_cb.gs_epl_a, "gs_epl_a matches");

	report_prefix_pop();
	}

	static bool have_vector_facility(void)
	{
	return test_facility(129);
	}

	static bool have_guarded_storage_facility(void)
	{
	return test_facility(133);
	}

	static void test_func(void)
	{
	uint8_t expected_vec_contents[VEC_REGISTER_NUM][VEC_REGISTER_SIZE];
	uint8_t actual_vec_contents[VEC_REGISTER_NUM][VEC_REGISTER_SIZE];
	uint8_t *vec_reg;
	int i;
	int vec_result = 0;

	if (have_guarded_storage_facility()) {
	ctl_set_bit(2, CTL2_GUARDED_STORAGE);

	write_gs_regs();
	}

	if (have_vector_facility()) {
	for (i = 0; i < VEC_REGISTER_NUM; i++) {
	vec_reg = &expected_vec_contents[i][0];
	/* i+1 to avoid zero content */
	memset(vec_reg, i + 1, VEC_REGISTER_SIZE);
	}

	ctl_set_bit(0, CTL0_VECTOR);

	/*
	* It is important loading the vector/floating point registers and
	* comparing their contents occurs in the same inline assembly block.
	* Otherwise, the compiler is allowed to re-use the registers for
	* something else in between.
	* For this very reason, this also runs on a second CPU, so all the
	* complex console stuff can be done in C on the first CPU and here we
	* just need to wait for it to set the flag.
	*/
	asm inline(
	" .machine z13\n"
	/* load vector registers: vlm handles at most 16 registers at a time */
	" vlm 0,15, 0(%[expected_vec_reg])\n"
	" vlm 16,31, 256(%[expected_vec_reg])\n"
	/* inform CPU0 we are done, it will request migration */
	" mvhi %[flag_thread_complete], 1\n"
	/* wait for migration to finish */
	"0: clfhsi %[flag_migration_complete], 1\n"
	" jnz 0b\n"
	/*
	* store vector register contents in actual_vec_reg: vstm
	* handles at most 16 registers at a time
	*/
	" vstm 0,15, 0(%[actual_vec_reg])\n"
	" vstm 16,31, 256(%[actual_vec_reg])\n"
	/*
	* compare the contents in expected_vec_reg with actual_vec_reg:
	* clc handles at most 256 bytes at a time
	*/
	" clc 0(256, %[expected_vec_reg]), 0(%[actual_vec_reg])\n"
	" jnz 1f\n"
	" clc 256(256, %[expected_vec_reg]), 256(%[actual_vec_reg])\n"
	" jnz 1f\n"
	/* success */
	" mvhi %[vec_result], 1\n"
	"1:"
	:
	: [expected_vec_reg] "a"(expected_vec_contents),
	[actual_vec_reg] "a"(actual_vec_contents),
	[flag_thread_complete] "Q"(flag_thread_complete),
	[flag_migration_complete] "Q"(flag_migration_complete),
	[vec_result] "Q"(vec_result)
	: "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "v8", "v9",
	"v10", "v11", "v12", "v13", "v14", "v15", "v16", "v17", "v18",
	"v19", "v20", "v21", "v22", "v23", "v24", "v25", "v26", "v27",
	"v28", "v29", "v30", "v31", "cc", "memory"
	);

	report(vec_result, "vector contents match");

	report(stctg(0) & BIT(CTL0_VECTOR), "ctl0 vector bit set");

	ctl_clear_bit(0, CTL0_VECTOR);
	} else {
	flag_thread_complete = 1;
	while(!flag_migration_complete)
	mb();
	}

	report_pass("Migrated");

	if (have_guarded_storage_facility()) {
	check_gs_regs();

	report(stctg(2) & BIT(CTL2_GUARDED_STORAGE), "ctl2 guarded-storage bit set");

	ctl_clear_bit(2, CTL2_GUARDED_STORAGE);
	}

	flag_thread_complete = 1;
	}

	int main(void)
	{
	/* don't say migrate here otherwise we will migrate right away */
	report_prefix_push("migration");

	if (smp_query_num_cpus() == 1) {
	report_skip("need at least 2 cpus for this test");
	migrate_skip();
	goto done;
	}

	/* Second CPU does the actual tests */
	smp_cpu_setup(1, PSW_WITH_CUR_MASK(test_func));

	/* wait for thread setup */
	while(!flag_thread_complete)
	mb();
	flag_thread_complete = 0;

	migrate_once();

	flag_migration_complete = 1;

	/* wait for thread to complete assertions */
	while(!flag_thread_complete)
	mb();

	smp_cpu_destroy(1);

	done:
	report_prefix_pop();
	return report_summary();
	}