x86/ioapic.c - kvm-unit-tests - Git at Google

 #include "libcflat.h"
 #include "apic.h"
 #include "vm.h"
 #include "smp.h"
 #include "desc.h"
 #include "isr.h"
 #include "delay.h"

 static void toggle_irq_line(unsigned line)
 {
 	set_irq_line(line, 1);
 	set_irq_line(line, 0);
 }

 static void ioapic_reg_version(void)
 {
 	u8 version_offset;
 	uint32_t data_read, data_write;

 	version_offset = 0x01;
 	data_read = ioapic_read_reg(version_offset);
 	data_write = data_read ^ 0xffffffff;

 	ioapic_write_reg(version_offset, data_write);
 	report(data_read == ioapic_read_reg(version_offset),
 	       "version register read only test");
 }

 static void ioapic_reg_id(void)
 {
 	u8 id_offset;
 	uint32_t data_read, data_write, diff;

 	id_offset = 0x0;
 	data_read = ioapic_read_reg(id_offset);
 	data_write = data_read ^ 0xffffffff;

 	ioapic_write_reg(id_offset, data_write);

 	diff = data_read ^ ioapic_read_reg(id_offset);
 	report(diff == 0x0f000000, "id register only bits [24:27] writable");
 }

 static void ioapic_arbitration_id(void)
 {
 	u8 id_offset, arb_offset;
 	uint32_t write;

 	id_offset = 0x0;
 	arb_offset = 0x2;
 	write = 0x0f000000;

 	ioapic_write_reg(id_offset, write);
 	report(ioapic_read_reg(arb_offset) == write,
 	       "arbitration register set by id");

 	ioapic_write_reg(arb_offset, 0x0);
 	report(ioapic_read_reg(arb_offset) == write,
 	       "arbtration register read only");
 }

 static volatile int g_isr_76;

 static void ioapic_isr_76(isr_regs_t *regs)
 {
 	++g_isr_76;
 	eoi();
 }

 static void test_ioapic_edge_intr(void)
 {
 	handle_irq(0x76, ioapic_isr_76);
 	ioapic_set_redir(0x0e, 0x76, TRIGGER_EDGE);
 	toggle_irq_line(0x0e);
 	asm volatile ("nop");
 	report(g_isr_76 == 1, "edge triggered intr");
 }

 static volatile int g_isr_77;

 static void ioapic_isr_77(isr_regs_t *regs)
 {
 	++g_isr_77;
 	set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_level_intr(void)
 {
 	handle_irq(0x77, ioapic_isr_77);
 	ioapic_set_redir(0x0e, 0x77, TRIGGER_LEVEL);
 	set_irq_line(0x0e, 1);
 	asm volatile ("nop");
 	report(g_isr_77 == 1, "level triggered intr");
 }

 static int g_78, g_66, g_66_after_78;
 static ulong g_66_rip, g_78_rip;

 static void ioapic_isr_78(isr_regs_t *regs)
 {
 	++g_78;
 	g_78_rip = regs->rip;
 	eoi();
 }

 static void ioapic_isr_66(isr_regs_t *regs)
 {
 	++g_66;
 	if (g_78)
 		++g_66_after_78;
 	g_66_rip = regs->rip;
 	eoi();
 }

 static void test_ioapic_simultaneous(void)
 {
 	handle_irq(0x78, ioapic_isr_78);
 	handle_irq(0x66, ioapic_isr_66);
 	ioapic_set_redir(0x0e, 0x78, TRIGGER_EDGE);
 	ioapic_set_redir(0x0f, 0x66, TRIGGER_EDGE);
 	irq_disable();
 	toggle_irq_line(0x0f);
 	toggle_irq_line(0x0e);
 	irq_enable();
 	asm volatile ("nop");
 	report(g_66 && g_78 && g_66_after_78 && g_66_rip == g_78_rip,
 	       "ioapic simultaneous edge interrupts");
 }

 static volatile int g_tmr_79 = -1;

 static void ioapic_isr_79(isr_regs_t *regs)
 {
 	g_tmr_79 = apic_read_bit(APIC_TMR, 0x79);
 	set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_edge_tmr(bool expected_tmr_before)
 {
 	int tmr_before;

 	handle_irq(0x79, ioapic_isr_79);
 	ioapic_set_redir(0x0e, 0x79, TRIGGER_EDGE);
 	tmr_before = apic_read_bit(APIC_TMR, 0x79);
 	toggle_irq_line(0x0e);
 	asm volatile ("nop");
 	report(tmr_before == expected_tmr_before && !g_tmr_79,
 	       "TMR for ioapic edge interrupts (expected %s)",
 	       expected_tmr_before ? "true" : "false");
 }

 static void test_ioapic_level_tmr(bool expected_tmr_before)
 {
 	int tmr_before;

 	handle_irq(0x79, ioapic_isr_79);
 	ioapic_set_redir(0x0e, 0x79, TRIGGER_LEVEL);
 	tmr_before = apic_read_bit(APIC_TMR, 0x79);
 	set_irq_line(0x0e, 1);
 	asm volatile ("nop");
 	report(tmr_before == expected_tmr_before && g_tmr_79,
 	       "TMR for ioapic level interrupts (expected %s)",
 	       expected_tmr_before ? "true" : "false");
 }

 static void toggle_irq_line_0x0e(void *data)
 {
 	irq_disable();
 	delay(IPI_DELAY);
 	toggle_irq_line(0x0e);
 	irq_enable();
 }

 static void test_ioapic_edge_tmr_smp(bool expected_tmr_before)
 {
 	int tmr_before;
 	int i;

 	g_tmr_79 = -1;
 	handle_irq(0x79, ioapic_isr_79);
 	ioapic_set_redir(0x0e, 0x79, TRIGGER_EDGE);
 	tmr_before = apic_read_bit(APIC_TMR, 0x79);
 	on_cpu_async(1, toggle_irq_line_0x0e, 0);
 	i = 0;
 	while(g_tmr_79 == -1) i++;
 	printf("%d iterations before interrupt received\n", i);
 	report(tmr_before == expected_tmr_before && !g_tmr_79,
 	       "TMR for ioapic edge interrupts (expected %s)",
 	       expected_tmr_before ? "true" : "false");
 }

 static void set_irq_line_0x0e(void *data)
 {
 	irq_disable();
 	delay(IPI_DELAY);
 	set_irq_line(0x0e, 1);
 	irq_enable();
 }

 static void test_ioapic_level_tmr_smp(bool expected_tmr_before)
 {
 	int i, tmr_before;

 	g_tmr_79 = -1;
 	handle_irq(0x79, ioapic_isr_79);
 	ioapic_set_redir(0x0e, 0x79, TRIGGER_LEVEL);
 	tmr_before = apic_read_bit(APIC_TMR, 0x79);
 	on_cpu_async(1, set_irq_line_0x0e, 0);
 	i = 0;
 	while(g_tmr_79 == -1) i++;
 	printf("%d iterations before interrupt received\n", i);
 	report(tmr_before == expected_tmr_before && g_tmr_79,
 	       "TMR for ioapic level interrupts (expected %s)",
 	       expected_tmr_before ? "true" : "false");
 }

 static int g_isr_98;

 static void ioapic_isr_98(isr_regs_t *regs)
 {
 	++g_isr_98;
 	if (g_isr_98 == 1) {
 		set_irq_line(0x0e, 0);
 		set_irq_line(0x0e, 1);
 	}
 	set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_level_coalesce(void)
 {
 	handle_irq(0x98, ioapic_isr_98);
 	ioapic_set_redir(0x0e, 0x98, TRIGGER_LEVEL);
 	set_irq_line(0x0e, 1);
 	asm volatile ("nop");
 	report(g_isr_98 == 1, "coalesce simultaneous level interrupts");
 }

 static int g_isr_99;

 static void ioapic_isr_99(isr_regs_t *regs)
 {
 	++g_isr_99;
 	set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_level_sequential(void)
 {
 	handle_irq(0x99, ioapic_isr_99);
 	ioapic_set_redir(0x0e, 0x99, TRIGGER_LEVEL);
 	set_irq_line(0x0e, 1);
 	set_irq_line(0x0e, 1);
 	asm volatile ("nop");
 	report(g_isr_99 == 2, "sequential level interrupts");
 }

 static volatile int g_isr_9a;

 static void ioapic_isr_9a(isr_regs_t *regs)
 {
 	++g_isr_9a;
 	if (g_isr_9a == 2)
 		set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_level_retrigger(void)
 {
 	int i;

 	handle_irq(0x9a, ioapic_isr_9a);
 	ioapic_set_redir(0x0e, 0x9a, TRIGGER_LEVEL);

 	asm volatile ("cli");
 	set_irq_line(0x0e, 1);

 	for (i = 0; i < 10; i++) {
 		if (g_isr_9a == 2)
 			break;

 		asm volatile ("sti; hlt; cli");
 	}

 	asm volatile ("sti");

 	report(g_isr_9a == 2, "retriggered level interrupts without masking");
 }

 static volatile int g_isr_81;

 static void ioapic_isr_81(isr_regs_t *regs)
 {
 	++g_isr_81;
 	set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_edge_mask(void)
 {
 	handle_irq(0x81, ioapic_isr_81);
 	ioapic_set_redir(0x0e, 0x81, TRIGGER_EDGE);

 	set_mask(0x0e, true);
 	set_irq_line(0x0e, 1);
 	set_irq_line(0x0e, 0);

 	asm volatile ("nop");
 	report(g_isr_81 == 0, "masked level interrupt");

 	set_mask(0x0e, false);
 	set_irq_line(0x0e, 1);

 	asm volatile ("nop");
 	report(g_isr_81 == 1, "unmasked level interrupt");
 }

 static volatile int g_isr_82;

 static void ioapic_isr_82(isr_regs_t *regs)
 {
 	++g_isr_82;
 	set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_level_mask(void)
 {
 	handle_irq(0x82, ioapic_isr_82);
 	ioapic_set_redir(0x0e, 0x82, TRIGGER_LEVEL);

 	set_mask(0x0e, true);
 	set_irq_line(0x0e, 1);

 	asm volatile ("nop");
 	report(g_isr_82 == 0, "masked level interrupt");

 	set_mask(0x0e, false);

 	asm volatile ("nop");
 	report(g_isr_82 == 1, "unmasked level interrupt");
 }

 static volatile int g_isr_83;

 static void ioapic_isr_83(isr_regs_t *regs)
 {
 	++g_isr_83;
 	set_mask(0x0e, true);
 	eoi();
 }

 static void test_ioapic_level_retrigger_mask(void)
 {
 	handle_irq(0x83, ioapic_isr_83);
 	ioapic_set_redir(0x0e, 0x83, TRIGGER_LEVEL);

 	set_irq_line(0x0e, 1);
 	asm volatile ("nop");
 	set_mask(0x0e, false);
 	asm volatile ("nop");
 	report(g_isr_83 == 2, "retriggered level interrupts with mask");

 	set_irq_line(0x0e, 0);
 	set_mask(0x0e, false);
 }

 static volatile int g_isr_84;

 static void ioapic_isr_84(isr_regs_t *regs)
 {
 	int line = 0xe;
 	ioapic_redir_entry_t e;

 	++g_isr_84;
 	set_irq_line(line, 0);

 	e = ioapic_read_redir(line);
 	e.dest_id = 1;

 	// Update only upper part of the register because we only change the
 	// destination, which resides in the upper part
 	ioapic_write_reg(0x10 + line * 2 + 1, ((u32 *)&e)[1]);

 	eoi();
 }

 static void test_ioapic_self_reconfigure(void)
 {
 	ioapic_redir_entry_t e = {
 		.vector = 0x84,
 		.delivery_mode = 0,
 		.dest_mode = 0,
 		.dest_id = 0,
 		.trig_mode = TRIGGER_LEVEL,
 	};

 	handle_irq(0x84, ioapic_isr_84);
 	ioapic_write_redir(0xe, e);
 	set_irq_line(0x0e, 1);
 	e = ioapic_read_redir(0xe);
 	report(g_isr_84 == 1 && e.remote_irr == 0, "Reconfigure self");
 }

 static volatile int g_isr_85;

 static void ioapic_isr_85(isr_regs_t *regs)
 {
 	++g_isr_85;
 	set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_physical_destination_mode(void)
 {
 	ioapic_redir_entry_t e = {
 		.vector = 0x85,
 		.delivery_mode = 0,
 		.dest_mode = 0,
 		.dest_id = 0x1,
 		.trig_mode = TRIGGER_LEVEL,
 	};
 	handle_irq(0x85, ioapic_isr_85);
 	ioapic_write_redir(0xe, e);
 	set_irq_line(0x0e, 1);
 	do {
 		pause();
 	} while(g_isr_85 != 1);
 	report(g_isr_85 == 1, "ioapic physical destination mode");
 }

 static volatile int g_isr_86;
 struct spinlock ioapic_lock;

 static void ioapic_isr_86(isr_regs_t *regs)
 {
 	spin_lock(&ioapic_lock);
 	++g_isr_86;
 	spin_unlock(&ioapic_lock);
 	set_irq_line(0x0e, 0);
 	eoi();
 }

 static void test_ioapic_logical_destination_mode(void)
 {
 	/* Number of vcpus which are configured/set in dest_id */
 	int nr_vcpus = 3;
 	ioapic_redir_entry_t e = {
 		.vector = 0x86,
 		.delivery_mode = 0,
 		.dest_mode = 1,
 		.dest_id = 0xd,
 		.trig_mode = TRIGGER_LEVEL,
 	};
 	handle_irq(0x86, ioapic_isr_86);
 	ioapic_write_redir(0xe, e);
 	set_irq_line(0x0e, 1);
 	do {
 		pause();
 	} while(g_isr_86 < nr_vcpus);
 	report(g_isr_86 == nr_vcpus, "ioapic logical destination mode");
 }

 int main(void)
 {
 	setup_vm();

 	on_cpus(update_cr3, (void *)read_cr3());
 	mask_pic_interrupts();

 	if (enable_x2apic())
 		printf("x2apic enabled\n");
 	else
 		printf("x2apic not detected\n");

 	irq_enable();

 	ioapic_reg_version();
 	ioapic_reg_id();
 	ioapic_arbitration_id();

 	test_ioapic_edge_intr();
 	test_ioapic_level_intr();
 	test_ioapic_simultaneous();

 	test_ioapic_level_coalesce();
 	test_ioapic_level_sequential();
 	test_ioapic_level_retrigger();

 	test_ioapic_edge_mask();
 	test_ioapic_level_mask();
 	test_ioapic_level_retrigger_mask();

 	test_ioapic_edge_tmr(false);
 	test_ioapic_level_tmr(false);
 	test_ioapic_level_tmr(true);
 	test_ioapic_edge_tmr(true);

 	if (cpu_count() > 1)
 		test_ioapic_physical_destination_mode();
 	if (cpu_count() > 3)
 		test_ioapic_logical_destination_mode();

 	if (cpu_count() > 1) {
 		test_ioapic_edge_tmr_smp(false);
 		test_ioapic_level_tmr_smp(false);
 		test_ioapic_level_tmr_smp(true);
 		test_ioapic_edge_tmr_smp(true);

 		test_ioapic_self_reconfigure();
 	}

 	return report_summary();
 }
	#include "libcflat.h"
	#include "apic.h"
	#include "vm.h"
	#include "smp.h"
	#include "desc.h"
	#include "isr.h"
	#include "delay.h"

	static void toggle_irq_line(unsigned line)
	{
	set_irq_line(line, 1);
	set_irq_line(line, 0);
	}

	static void ioapic_reg_version(void)
	{
	u8 version_offset;
	uint32_t data_read, data_write;

	version_offset = 0x01;
	data_read = ioapic_read_reg(version_offset);
	data_write = data_read ^ 0xffffffff;

	ioapic_write_reg(version_offset, data_write);
	report(data_read == ioapic_read_reg(version_offset),
	"version register read only test");
	}

	static void ioapic_reg_id(void)
	{
	u8 id_offset;
	uint32_t data_read, data_write, diff;

	id_offset = 0x0;
	data_read = ioapic_read_reg(id_offset);
	data_write = data_read ^ 0xffffffff;

	ioapic_write_reg(id_offset, data_write);

	diff = data_read ^ ioapic_read_reg(id_offset);
	report(diff == 0x0f000000, "id register only bits [24:27] writable");
	}

	static void ioapic_arbitration_id(void)
	{
	u8 id_offset, arb_offset;
	uint32_t write;

	id_offset = 0x0;
	arb_offset = 0x2;
	write = 0x0f000000;

	ioapic_write_reg(id_offset, write);
	report(ioapic_read_reg(arb_offset) == write,
	"arbitration register set by id");

	ioapic_write_reg(arb_offset, 0x0);
	report(ioapic_read_reg(arb_offset) == write,
	"arbtration register read only");
	}

	static volatile int g_isr_76;

	static void ioapic_isr_76(isr_regs_t *regs)
	{
	++g_isr_76;
	eoi();
	}

	static void test_ioapic_edge_intr(void)
	{
	handle_irq(0x76, ioapic_isr_76);
	ioapic_set_redir(0x0e, 0x76, TRIGGER_EDGE);
	toggle_irq_line(0x0e);
	asm volatile ("nop");
	report(g_isr_76 == 1, "edge triggered intr");
	}

	static volatile int g_isr_77;

	static void ioapic_isr_77(isr_regs_t *regs)
	{
	++g_isr_77;
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_level_intr(void)
	{
	handle_irq(0x77, ioapic_isr_77);
	ioapic_set_redir(0x0e, 0x77, TRIGGER_LEVEL);
	set_irq_line(0x0e, 1);
	asm volatile ("nop");
	report(g_isr_77 == 1, "level triggered intr");
	}

	static int g_78, g_66, g_66_after_78;
	static ulong g_66_rip, g_78_rip;

	static void ioapic_isr_78(isr_regs_t *regs)
	{
	++g_78;
	g_78_rip = regs->rip;
	eoi();
	}

	static void ioapic_isr_66(isr_regs_t *regs)
	{
	++g_66;
	if (g_78)
	++g_66_after_78;
	g_66_rip = regs->rip;
	eoi();
	}

	static void test_ioapic_simultaneous(void)
	{
	handle_irq(0x78, ioapic_isr_78);
	handle_irq(0x66, ioapic_isr_66);
	ioapic_set_redir(0x0e, 0x78, TRIGGER_EDGE);
	ioapic_set_redir(0x0f, 0x66, TRIGGER_EDGE);
	irq_disable();
	toggle_irq_line(0x0f);
	toggle_irq_line(0x0e);
	irq_enable();
	asm volatile ("nop");
	report(g_66 && g_78 && g_66_after_78 && g_66_rip == g_78_rip,
	"ioapic simultaneous edge interrupts");
	}

	static volatile int g_tmr_79 = -1;

	static void ioapic_isr_79(isr_regs_t *regs)
	{
	g_tmr_79 = apic_read_bit(APIC_TMR, 0x79);
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_edge_tmr(bool expected_tmr_before)
	{
	int tmr_before;

	handle_irq(0x79, ioapic_isr_79);
	ioapic_set_redir(0x0e, 0x79, TRIGGER_EDGE);
	tmr_before = apic_read_bit(APIC_TMR, 0x79);
	toggle_irq_line(0x0e);
	asm volatile ("nop");
	report(tmr_before == expected_tmr_before && !g_tmr_79,
	"TMR for ioapic edge interrupts (expected %s)",
	expected_tmr_before ? "true" : "false");
	}

	static void test_ioapic_level_tmr(bool expected_tmr_before)
	{
	int tmr_before;

	handle_irq(0x79, ioapic_isr_79);
	ioapic_set_redir(0x0e, 0x79, TRIGGER_LEVEL);
	tmr_before = apic_read_bit(APIC_TMR, 0x79);
	set_irq_line(0x0e, 1);
	asm volatile ("nop");
	report(tmr_before == expected_tmr_before && g_tmr_79,
	"TMR for ioapic level interrupts (expected %s)",
	expected_tmr_before ? "true" : "false");
	}

	static void toggle_irq_line_0x0e(void *data)
	{
	irq_disable();
	delay(IPI_DELAY);
	toggle_irq_line(0x0e);
	irq_enable();
	}

	static void test_ioapic_edge_tmr_smp(bool expected_tmr_before)
	{
	int tmr_before;
	int i;

	g_tmr_79 = -1;
	handle_irq(0x79, ioapic_isr_79);
	ioapic_set_redir(0x0e, 0x79, TRIGGER_EDGE);
	tmr_before = apic_read_bit(APIC_TMR, 0x79);
	on_cpu_async(1, toggle_irq_line_0x0e, 0);
	i = 0;
	while(g_tmr_79 == -1) i++;
	printf("%d iterations before interrupt received\n", i);
	report(tmr_before == expected_tmr_before && !g_tmr_79,
	"TMR for ioapic edge interrupts (expected %s)",
	expected_tmr_before ? "true" : "false");
	}

	static void set_irq_line_0x0e(void *data)
	{
	irq_disable();
	delay(IPI_DELAY);
	set_irq_line(0x0e, 1);
	irq_enable();
	}

	static void test_ioapic_level_tmr_smp(bool expected_tmr_before)
	{
	int i, tmr_before;

	g_tmr_79 = -1;
	handle_irq(0x79, ioapic_isr_79);
	ioapic_set_redir(0x0e, 0x79, TRIGGER_LEVEL);
	tmr_before = apic_read_bit(APIC_TMR, 0x79);
	on_cpu_async(1, set_irq_line_0x0e, 0);
	i = 0;
	while(g_tmr_79 == -1) i++;
	printf("%d iterations before interrupt received\n", i);
	report(tmr_before == expected_tmr_before && g_tmr_79,
	"TMR for ioapic level interrupts (expected %s)",
	expected_tmr_before ? "true" : "false");
	}

	static int g_isr_98;

	static void ioapic_isr_98(isr_regs_t *regs)
	{
	++g_isr_98;
	if (g_isr_98 == 1) {
	set_irq_line(0x0e, 0);
	set_irq_line(0x0e, 1);
	}
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_level_coalesce(void)
	{
	handle_irq(0x98, ioapic_isr_98);
	ioapic_set_redir(0x0e, 0x98, TRIGGER_LEVEL);
	set_irq_line(0x0e, 1);
	asm volatile ("nop");
	report(g_isr_98 == 1, "coalesce simultaneous level interrupts");
	}

	static int g_isr_99;

	static void ioapic_isr_99(isr_regs_t *regs)
	{
	++g_isr_99;
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_level_sequential(void)
	{
	handle_irq(0x99, ioapic_isr_99);
	ioapic_set_redir(0x0e, 0x99, TRIGGER_LEVEL);
	set_irq_line(0x0e, 1);
	set_irq_line(0x0e, 1);
	asm volatile ("nop");
	report(g_isr_99 == 2, "sequential level interrupts");
	}

	static volatile int g_isr_9a;

	static void ioapic_isr_9a(isr_regs_t *regs)
	{
	++g_isr_9a;
	if (g_isr_9a == 2)
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_level_retrigger(void)
	{
	int i;

	handle_irq(0x9a, ioapic_isr_9a);
	ioapic_set_redir(0x0e, 0x9a, TRIGGER_LEVEL);

	asm volatile ("cli");
	set_irq_line(0x0e, 1);

	for (i = 0; i < 10; i++) {
	if (g_isr_9a == 2)
	break;

	asm volatile ("sti; hlt; cli");
	}

	asm volatile ("sti");

	report(g_isr_9a == 2, "retriggered level interrupts without masking");
	}

	static volatile int g_isr_81;

	static void ioapic_isr_81(isr_regs_t *regs)
	{
	++g_isr_81;
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_edge_mask(void)
	{
	handle_irq(0x81, ioapic_isr_81);
	ioapic_set_redir(0x0e, 0x81, TRIGGER_EDGE);

	set_mask(0x0e, true);
	set_irq_line(0x0e, 1);
	set_irq_line(0x0e, 0);

	asm volatile ("nop");
	report(g_isr_81 == 0, "masked level interrupt");

	set_mask(0x0e, false);
	set_irq_line(0x0e, 1);

	asm volatile ("nop");
	report(g_isr_81 == 1, "unmasked level interrupt");
	}

	static volatile int g_isr_82;

	static void ioapic_isr_82(isr_regs_t *regs)
	{
	++g_isr_82;
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_level_mask(void)
	{
	handle_irq(0x82, ioapic_isr_82);
	ioapic_set_redir(0x0e, 0x82, TRIGGER_LEVEL);

	set_mask(0x0e, true);
	set_irq_line(0x0e, 1);

	asm volatile ("nop");
	report(g_isr_82 == 0, "masked level interrupt");

	set_mask(0x0e, false);

	asm volatile ("nop");
	report(g_isr_82 == 1, "unmasked level interrupt");
	}

	static volatile int g_isr_83;

	static void ioapic_isr_83(isr_regs_t *regs)
	{
	++g_isr_83;
	set_mask(0x0e, true);
	eoi();
	}

	static void test_ioapic_level_retrigger_mask(void)
	{
	handle_irq(0x83, ioapic_isr_83);
	ioapic_set_redir(0x0e, 0x83, TRIGGER_LEVEL);

	set_irq_line(0x0e, 1);
	asm volatile ("nop");
	set_mask(0x0e, false);
	asm volatile ("nop");
	report(g_isr_83 == 2, "retriggered level interrupts with mask");

	set_irq_line(0x0e, 0);
	set_mask(0x0e, false);
	}

	static volatile int g_isr_84;

	static void ioapic_isr_84(isr_regs_t *regs)
	{
	int line = 0xe;
	ioapic_redir_entry_t e;

	++g_isr_84;
	set_irq_line(line, 0);

	e = ioapic_read_redir(line);
	e.dest_id = 1;

	// Update only upper part of the register because we only change the
	// destination, which resides in the upper part
	ioapic_write_reg(0x10 + line * 2 + 1, ((u32 *)&e)[1]);

	eoi();
	}

	static void test_ioapic_self_reconfigure(void)
	{
	ioapic_redir_entry_t e = {
	.vector = 0x84,
	.delivery_mode = 0,
	.dest_mode = 0,
	.dest_id = 0,
	.trig_mode = TRIGGER_LEVEL,
	};

	handle_irq(0x84, ioapic_isr_84);
	ioapic_write_redir(0xe, e);
	set_irq_line(0x0e, 1);
	e = ioapic_read_redir(0xe);
	report(g_isr_84 == 1 && e.remote_irr == 0, "Reconfigure self");
	}

	static volatile int g_isr_85;

	static void ioapic_isr_85(isr_regs_t *regs)
	{
	++g_isr_85;
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_physical_destination_mode(void)
	{
	ioapic_redir_entry_t e = {
	.vector = 0x85,
	.delivery_mode = 0,
	.dest_mode = 0,
	.dest_id = 0x1,
	.trig_mode = TRIGGER_LEVEL,
	};
	handle_irq(0x85, ioapic_isr_85);
	ioapic_write_redir(0xe, e);
	set_irq_line(0x0e, 1);
	do {
	pause();
	} while(g_isr_85 != 1);
	report(g_isr_85 == 1, "ioapic physical destination mode");
	}

	static volatile int g_isr_86;
	struct spinlock ioapic_lock;

	static void ioapic_isr_86(isr_regs_t *regs)
	{
	spin_lock(&ioapic_lock);
	++g_isr_86;
	spin_unlock(&ioapic_lock);
	set_irq_line(0x0e, 0);
	eoi();
	}

	static void test_ioapic_logical_destination_mode(void)
	{
	/* Number of vcpus which are configured/set in dest_id */
	int nr_vcpus = 3;
	ioapic_redir_entry_t e = {
	.vector = 0x86,
	.delivery_mode = 0,
	.dest_mode = 1,
	.dest_id = 0xd,
	.trig_mode = TRIGGER_LEVEL,
	};
	handle_irq(0x86, ioapic_isr_86);
	ioapic_write_redir(0xe, e);
	set_irq_line(0x0e, 1);
	do {
	pause();
	} while(g_isr_86 < nr_vcpus);
	report(g_isr_86 == nr_vcpus, "ioapic logical destination mode");
	}

	int main(void)
	{
	setup_vm();

	on_cpus(update_cr3, (void *)read_cr3());
	mask_pic_interrupts();

	if (enable_x2apic())
	printf("x2apic enabled\n");
	else
	printf("x2apic not detected\n");

	irq_enable();

	ioapic_reg_version();
	ioapic_reg_id();
	ioapic_arbitration_id();

	test_ioapic_edge_intr();
	test_ioapic_level_intr();
	test_ioapic_simultaneous();

	test_ioapic_level_coalesce();
	test_ioapic_level_sequential();
	test_ioapic_level_retrigger();

	test_ioapic_edge_mask();
	test_ioapic_level_mask();
	test_ioapic_level_retrigger_mask();

	test_ioapic_edge_tmr(false);
	test_ioapic_level_tmr(false);
	test_ioapic_level_tmr(true);
	test_ioapic_edge_tmr(true);

	if (cpu_count() > 1)
	test_ioapic_physical_destination_mode();
	if (cpu_count() > 3)
	test_ioapic_logical_destination_mode();

	if (cpu_count() > 1) {
	test_ioapic_edge_tmr_smp(false);
	test_ioapic_level_tmr_smp(false);
	test_ioapic_level_tmr_smp(true);
	test_ioapic_edge_tmr_smp(true);

	test_ioapic_self_reconfigure();
	}

	return report_summary();
	}