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|
#include "qemu/osdep.h"
#include "migration/vmstate.h"
#include "hw/acpi/cpu.h"
#include "qapi/error.h"
#include "qapi/qapi-events-acpi.h"
#include "trace.h"
#include "sysemu/numa.h"
#define ACPI_CPU_HOTPLUG_REG_LEN 12
#define ACPI_CPU_SELECTOR_OFFSET_WR 0
#define ACPI_CPU_FLAGS_OFFSET_RW 4
#define ACPI_CPU_CMD_OFFSET_WR 5
#define ACPI_CPU_CMD_DATA_OFFSET_RW 8
#define ACPI_CPU_CMD_DATA2_OFFSET_R 0
#define OVMF_CPUHP_SMI_CMD 4
enum {
CPHP_GET_NEXT_CPU_WITH_EVENT_CMD = 0,
CPHP_OST_EVENT_CMD = 1,
CPHP_OST_STATUS_CMD = 2,
CPHP_GET_CPU_ID_CMD = 3,
CPHP_CMD_MAX
};
static ACPIOSTInfo *acpi_cpu_device_status(int idx, AcpiCpuStatus *cdev)
{
ACPIOSTInfo *info = g_new0(ACPIOSTInfo, 1);
info->slot_type = ACPI_SLOT_TYPE_CPU;
info->slot = g_strdup_printf("%d", idx);
info->source = cdev->ost_event;
info->status = cdev->ost_status;
if (cdev->cpu) {
DeviceState *dev = DEVICE(cdev->cpu);
if (dev->id) {
info->device = g_strdup(dev->id);
info->has_device = true;
}
}
return info;
}
void acpi_cpu_ospm_status(CPUHotplugState *cpu_st, ACPIOSTInfoList ***list)
{
ACPIOSTInfoList ***tail = list;
int i;
for (i = 0; i < cpu_st->dev_count; i++) {
QAPI_LIST_APPEND(*tail, acpi_cpu_device_status(i, &cpu_st->devs[i]));
}
}
static uint64_t cpu_hotplug_rd(void *opaque, hwaddr addr, unsigned size)
{
uint64_t val = 0;
CPUHotplugState *cpu_st = opaque;
AcpiCpuStatus *cdev;
if (cpu_st->selector >= cpu_st->dev_count) {
return val;
}
cdev = &cpu_st->devs[cpu_st->selector];
switch (addr) {
case ACPI_CPU_FLAGS_OFFSET_RW: /* pack and return is_* fields */
val |= cdev->cpu ? 1 : 0;
val |= cdev->is_inserting ? 2 : 0;
val |= cdev->is_removing ? 4 : 0;
val |= cdev->fw_remove ? 16 : 0;
trace_cpuhp_acpi_read_flags(cpu_st->selector, val);
break;
case ACPI_CPU_CMD_DATA_OFFSET_RW:
switch (cpu_st->command) {
case CPHP_GET_NEXT_CPU_WITH_EVENT_CMD:
val = cpu_st->selector;
break;
case CPHP_GET_CPU_ID_CMD:
val = cdev->arch_id & 0xFFFFFFFF;
break;
default:
break;
}
trace_cpuhp_acpi_read_cmd_data(cpu_st->selector, val);
break;
case ACPI_CPU_CMD_DATA2_OFFSET_R:
switch (cpu_st->command) {
case CPHP_GET_NEXT_CPU_WITH_EVENT_CMD:
val = 0;
break;
case CPHP_GET_CPU_ID_CMD:
val = cdev->arch_id >> 32;
break;
default:
break;
}
trace_cpuhp_acpi_read_cmd_data2(cpu_st->selector, val);
break;
default:
break;
}
return val;
}
static void cpu_hotplug_wr(void *opaque, hwaddr addr, uint64_t data,
unsigned int size)
{
CPUHotplugState *cpu_st = opaque;
AcpiCpuStatus *cdev;
ACPIOSTInfo *info;
assert(cpu_st->dev_count);
if (addr) {
if (cpu_st->selector >= cpu_st->dev_count) {
trace_cpuhp_acpi_invalid_idx_selected(cpu_st->selector);
return;
}
}
switch (addr) {
case ACPI_CPU_SELECTOR_OFFSET_WR: /* current CPU selector */
cpu_st->selector = data;
trace_cpuhp_acpi_write_idx(cpu_st->selector);
break;
case ACPI_CPU_FLAGS_OFFSET_RW: /* set is_* fields */
cdev = &cpu_st->devs[cpu_st->selector];
if (data & 2) { /* clear insert event */
cdev->is_inserting = false;
trace_cpuhp_acpi_clear_inserting_evt(cpu_st->selector);
} else if (data & 4) { /* clear remove event */
cdev->is_removing = false;
trace_cpuhp_acpi_clear_remove_evt(cpu_st->selector);
} else if (data & 8) {
DeviceState *dev = NULL;
HotplugHandler *hotplug_ctrl = NULL;
if (!cdev->cpu || cdev->cpu == first_cpu) {
trace_cpuhp_acpi_ejecting_invalid_cpu(cpu_st->selector);
break;
}
trace_cpuhp_acpi_ejecting_cpu(cpu_st->selector);
dev = DEVICE(cdev->cpu);
hotplug_ctrl = qdev_get_hotplug_handler(dev);
hotplug_handler_unplug(hotplug_ctrl, dev, NULL);
object_unparent(OBJECT(dev));
cdev->fw_remove = false;
} else if (data & 16) {
if (!cdev->cpu || cdev->cpu == first_cpu) {
trace_cpuhp_acpi_fw_remove_invalid_cpu(cpu_st->selector);
break;
}
trace_cpuhp_acpi_fw_remove_cpu(cpu_st->selector);
cdev->fw_remove = true;
}
break;
case ACPI_CPU_CMD_OFFSET_WR:
trace_cpuhp_acpi_write_cmd(cpu_st->selector, data);
if (data < CPHP_CMD_MAX) {
cpu_st->command = data;
if (cpu_st->command == CPHP_GET_NEXT_CPU_WITH_EVENT_CMD) {
uint32_t iter = cpu_st->selector;
do {
cdev = &cpu_st->devs[iter];
if (cdev->is_inserting || cdev->is_removing ||
cdev->fw_remove) {
cpu_st->selector = iter;
trace_cpuhp_acpi_cpu_has_events(cpu_st->selector,
cdev->is_inserting, cdev->is_removing);
break;
}
iter = iter + 1 < cpu_st->dev_count ? iter + 1 : 0;
} while (iter != cpu_st->selector);
}
}
break;
case ACPI_CPU_CMD_DATA_OFFSET_RW:
switch (cpu_st->command) {
case CPHP_OST_EVENT_CMD: {
cdev = &cpu_st->devs[cpu_st->selector];
cdev->ost_event = data;
trace_cpuhp_acpi_write_ost_ev(cpu_st->selector, cdev->ost_event);
break;
}
case CPHP_OST_STATUS_CMD: {
cdev = &cpu_st->devs[cpu_st->selector];
cdev->ost_status = data;
info = acpi_cpu_device_status(cpu_st->selector, cdev);
qapi_event_send_acpi_device_ost(info);
qapi_free_ACPIOSTInfo(info);
trace_cpuhp_acpi_write_ost_status(cpu_st->selector,
cdev->ost_status);
break;
}
default:
break;
}
break;
default:
break;
}
}
static const MemoryRegionOps cpu_hotplug_ops = {
.read = cpu_hotplug_rd,
.write = cpu_hotplug_wr,
.endianness = DEVICE_LITTLE_ENDIAN,
.valid = {
.min_access_size = 1,
.max_access_size = 4,
},
};
void cpu_hotplug_hw_init(MemoryRegion *as, Object *owner,
CPUHotplugState *state, hwaddr base_addr)
{
MachineState *machine = MACHINE(qdev_get_machine());
MachineClass *mc = MACHINE_GET_CLASS(machine);
const CPUArchIdList *id_list;
int i;
assert(mc->possible_cpu_arch_ids);
id_list = mc->possible_cpu_arch_ids(machine);
state->dev_count = id_list->len;
state->devs = g_new0(typeof(*state->devs), state->dev_count);
for (i = 0; i < id_list->len; i++) {
state->devs[i].cpu = CPU(id_list->cpus[i].cpu);
state->devs[i].arch_id = id_list->cpus[i].arch_id;
}
memory_region_init_io(&state->ctrl_reg, owner, &cpu_hotplug_ops, state,
"acpi-cpu-hotplug", ACPI_CPU_HOTPLUG_REG_LEN);
memory_region_add_subregion(as, base_addr, &state->ctrl_reg);
}
static AcpiCpuStatus *get_cpu_status(CPUHotplugState *cpu_st, DeviceState *dev)
{
CPUClass *k = CPU_GET_CLASS(dev);
uint64_t cpu_arch_id = k->get_arch_id(CPU(dev));
int i;
for (i = 0; i < cpu_st->dev_count; i++) {
if (cpu_arch_id == cpu_st->devs[i].arch_id) {
return &cpu_st->devs[i];
}
}
return NULL;
}
void acpi_cpu_plug_cb(HotplugHandler *hotplug_dev,
CPUHotplugState *cpu_st, DeviceState *dev, Error **errp)
{
AcpiCpuStatus *cdev;
cdev = get_cpu_status(cpu_st, dev);
if (!cdev) {
return;
}
cdev->cpu = CPU(dev);
if (dev->hotplugged) {
cdev->is_inserting = true;
acpi_send_event(DEVICE(hotplug_dev), ACPI_CPU_HOTPLUG_STATUS);
}
}
void acpi_cpu_unplug_request_cb(HotplugHandler *hotplug_dev,
CPUHotplugState *cpu_st,
DeviceState *dev, Error **errp)
{
AcpiCpuStatus *cdev;
cdev = get_cpu_status(cpu_st, dev);
if (!cdev) {
return;
}
cdev->is_removing = true;
acpi_send_event(DEVICE(hotplug_dev), ACPI_CPU_HOTPLUG_STATUS);
}
void acpi_cpu_unplug_cb(CPUHotplugState *cpu_st,
DeviceState *dev, Error **errp)
{
AcpiCpuStatus *cdev;
cdev = get_cpu_status(cpu_st, dev);
if (!cdev) {
return;
}
cdev->cpu = NULL;
}
static const VMStateDescription vmstate_cpuhp_sts = {
.name = "CPU hotplug device state",
.version_id = 1,
.minimum_version_id = 1,
.fields = (VMStateField[]) {
VMSTATE_BOOL(is_inserting, AcpiCpuStatus),
VMSTATE_BOOL(is_removing, AcpiCpuStatus),
VMSTATE_UINT32(ost_event, AcpiCpuStatus),
VMSTATE_UINT32(ost_status, AcpiCpuStatus),
VMSTATE_END_OF_LIST()
}
};
const VMStateDescription vmstate_cpu_hotplug = {
.name = "CPU hotplug state",
.version_id = 1,
.minimum_version_id = 1,
.fields = (VMStateField[]) {
VMSTATE_UINT32(selector, CPUHotplugState),
VMSTATE_UINT8(command, CPUHotplugState),
VMSTATE_STRUCT_VARRAY_POINTER_UINT32(devs, CPUHotplugState, dev_count,
vmstate_cpuhp_sts, AcpiCpuStatus),
VMSTATE_END_OF_LIST()
}
};
#define CPU_NAME_FMT "C%.03X"
#define CPUHP_RES_DEVICE "PRES"
#define CPU_LOCK "CPLK"
#define CPU_STS_METHOD "CSTA"
#define CPU_SCAN_METHOD "CSCN"
#define CPU_NOTIFY_METHOD "CTFY"
#define CPU_EJECT_METHOD "CEJ0"
#define CPU_OST_METHOD "COST"
#define CPU_ADDED_LIST "CNEW"
#define CPU_ENABLED "CPEN"
#define CPU_SELECTOR "CSEL"
#define CPU_COMMAND "CCMD"
#define CPU_DATA "CDAT"
#define CPU_INSERT_EVENT "CINS"
#define CPU_REMOVE_EVENT "CRMV"
#define CPU_EJECT_EVENT "CEJ0"
#define CPU_FW_EJECT_EVENT "CEJF"
void build_cpus_aml(Aml *table, MachineState *machine, CPUHotplugFeatures opts,
hwaddr io_base,
const char *res_root,
const char *event_handler_method)
{
Aml *ifctx;
Aml *field;
Aml *method;
Aml *cpu_ctrl_dev;
Aml *cpus_dev;
Aml *zero = aml_int(0);
Aml *one = aml_int(1);
Aml *sb_scope = aml_scope("_SB");
MachineClass *mc = MACHINE_GET_CLASS(machine);
const CPUArchIdList *arch_ids = mc->possible_cpu_arch_ids(machine);
char *cphp_res_path = g_strdup_printf("%s." CPUHP_RES_DEVICE, res_root);
Object *obj = object_resolve_path_type("", TYPE_ACPI_DEVICE_IF, NULL);
AcpiDeviceIfClass *adevc = ACPI_DEVICE_IF_GET_CLASS(obj);
AcpiDeviceIf *adev = ACPI_DEVICE_IF(obj);
cpu_ctrl_dev = aml_device("%s", cphp_res_path);
{
Aml *crs;
aml_append(cpu_ctrl_dev,
aml_name_decl("_HID", aml_eisaid("PNP0A06")));
aml_append(cpu_ctrl_dev,
aml_name_decl("_UID", aml_string("CPU Hotplug resources")));
aml_append(cpu_ctrl_dev, aml_mutex(CPU_LOCK, 0));
crs = aml_resource_template();
aml_append(crs, aml_io(AML_DECODE16, io_base, io_base, 1,
ACPI_CPU_HOTPLUG_REG_LEN));
aml_append(cpu_ctrl_dev, aml_name_decl("_CRS", crs));
/* declare CPU hotplug MMIO region with related access fields */
aml_append(cpu_ctrl_dev,
aml_operation_region("PRST", AML_SYSTEM_IO, aml_int(io_base),
ACPI_CPU_HOTPLUG_REG_LEN));
field = aml_field("PRST", AML_BYTE_ACC, AML_NOLOCK,
AML_WRITE_AS_ZEROS);
aml_append(field, aml_reserved_field(ACPI_CPU_FLAGS_OFFSET_RW * 8));
/* 1 if enabled, read only */
aml_append(field, aml_named_field(CPU_ENABLED, 1));
/* (read) 1 if has a insert event. (write) 1 to clear event */
aml_append(field, aml_named_field(CPU_INSERT_EVENT, 1));
/* (read) 1 if has a remove event. (write) 1 to clear event */
aml_append(field, aml_named_field(CPU_REMOVE_EVENT, 1));
/* initiates device eject, write only */
aml_append(field, aml_named_field(CPU_EJECT_EVENT, 1));
/* tell firmware to do device eject, write only */
aml_append(field, aml_named_field(CPU_FW_EJECT_EVENT, 1));
aml_append(field, aml_reserved_field(3));
aml_append(field, aml_named_field(CPU_COMMAND, 8));
aml_append(cpu_ctrl_dev, field);
field = aml_field("PRST", AML_DWORD_ACC, AML_NOLOCK, AML_PRESERVE);
/* CPU selector, write only */
aml_append(field, aml_named_field(CPU_SELECTOR, 32));
/* flags + cmd + 2byte align */
aml_append(field, aml_reserved_field(4 * 8));
aml_append(field, aml_named_field(CPU_DATA, 32));
aml_append(cpu_ctrl_dev, field);
if (opts.has_legacy_cphp) {
method = aml_method("_INI", 0, AML_SERIALIZED);
/* switch off legacy CPU hotplug HW and use new one,
* on reboot system is in new mode and writing 0
* in CPU_SELECTOR selects BSP, which is NOP at
* the time _INI is called */
aml_append(method, aml_store(zero, aml_name(CPU_SELECTOR)));
aml_append(cpu_ctrl_dev, method);
}
}
aml_append(sb_scope, cpu_ctrl_dev);
cpus_dev = aml_device("\\_SB.CPUS");
{
int i;
Aml *ctrl_lock = aml_name("%s.%s", cphp_res_path, CPU_LOCK);
Aml *cpu_selector = aml_name("%s.%s", cphp_res_path, CPU_SELECTOR);
Aml *is_enabled = aml_name("%s.%s", cphp_res_path, CPU_ENABLED);
Aml *cpu_cmd = aml_name("%s.%s", cphp_res_path, CPU_COMMAND);
Aml *cpu_data = aml_name("%s.%s", cphp_res_path, CPU_DATA);
Aml *ins_evt = aml_name("%s.%s", cphp_res_path, CPU_INSERT_EVENT);
Aml *rm_evt = aml_name("%s.%s", cphp_res_path, CPU_REMOVE_EVENT);
Aml *ej_evt = aml_name("%s.%s", cphp_res_path, CPU_EJECT_EVENT);
Aml *fw_ej_evt = aml_name("%s.%s", cphp_res_path, CPU_FW_EJECT_EVENT);
aml_append(cpus_dev, aml_name_decl("_HID", aml_string("ACPI0010")));
aml_append(cpus_dev, aml_name_decl("_CID", aml_eisaid("PNP0A05")));
method = aml_method(CPU_NOTIFY_METHOD, 2, AML_NOTSERIALIZED);
for (i = 0; i < arch_ids->len; i++) {
Aml *cpu = aml_name(CPU_NAME_FMT, i);
Aml *uid = aml_arg(0);
Aml *event = aml_arg(1);
ifctx = aml_if(aml_equal(uid, aml_int(i)));
{
aml_append(ifctx, aml_notify(cpu, event));
}
aml_append(method, ifctx);
}
aml_append(cpus_dev, method);
method = aml_method(CPU_STS_METHOD, 1, AML_SERIALIZED);
{
Aml *idx = aml_arg(0);
Aml *sta = aml_local(0);
aml_append(method, aml_acquire(ctrl_lock, 0xFFFF));
aml_append(method, aml_store(idx, cpu_selector));
aml_append(method, aml_store(zero, sta));
ifctx = aml_if(aml_equal(is_enabled, one));
{
aml_append(ifctx, aml_store(aml_int(0xF), sta));
}
aml_append(method, ifctx);
aml_append(method, aml_release(ctrl_lock));
aml_append(method, aml_return(sta));
}
aml_append(cpus_dev, method);
method = aml_method(CPU_EJECT_METHOD, 1, AML_SERIALIZED);
{
Aml *idx = aml_arg(0);
aml_append(method, aml_acquire(ctrl_lock, 0xFFFF));
aml_append(method, aml_store(idx, cpu_selector));
if (opts.fw_unplugs_cpu) {
aml_append(method, aml_store(one, fw_ej_evt));
aml_append(method, aml_store(aml_int(OVMF_CPUHP_SMI_CMD),
aml_name("%s", opts.smi_path)));
} else {
aml_append(method, aml_store(one, ej_evt));
}
aml_append(method, aml_release(ctrl_lock));
}
aml_append(cpus_dev, method);
method = aml_method(CPU_SCAN_METHOD, 0, AML_SERIALIZED);
{
const uint8_t max_cpus_per_pass = 255;
Aml *else_ctx;
Aml *while_ctx, *while_ctx2;
Aml *has_event = aml_local(0);
Aml *dev_chk = aml_int(1);
Aml *eject_req = aml_int(3);
Aml *next_cpu_cmd = aml_int(CPHP_GET_NEXT_CPU_WITH_EVENT_CMD);
Aml *num_added_cpus = aml_local(1);
Aml *cpu_idx = aml_local(2);
Aml *uid = aml_local(3);
Aml *has_job = aml_local(4);
Aml *new_cpus = aml_name(CPU_ADDED_LIST);
aml_append(method, aml_acquire(ctrl_lock, 0xFFFF));
/*
* Windows versions newer than XP (including Windows 10/Windows
* Server 2019), do support* VarPackageOp but, it is cripled to hold
* the same elements number as old PackageOp.
* For compatibility with Windows XP (so it won't crash) use ACPI1.0
* PackageOp which can hold max 255 elements.
*
* use named package as old Windows don't support it in local var
*/
aml_append(method, aml_name_decl(CPU_ADDED_LIST,
aml_package(max_cpus_per_pass)));
aml_append(method, aml_store(zero, uid));
aml_append(method, aml_store(one, has_job));
/*
* CPU_ADDED_LIST can hold limited number of elements, outer loop
* allows to process CPUs in batches which let us to handle more
* CPUs than CPU_ADDED_LIST can hold.
*/
while_ctx2 = aml_while(aml_equal(has_job, one));
{
aml_append(while_ctx2, aml_store(zero, has_job));
aml_append(while_ctx2, aml_store(one, has_event));
aml_append(while_ctx2, aml_store(zero, num_added_cpus));
/*
* Scan CPUs, till there are CPUs with events or
* CPU_ADDED_LIST capacity is exhausted
*/
while_ctx = aml_while(aml_land(aml_equal(has_event, one),
aml_lless(uid, aml_int(arch_ids->len))));
{
/*
* clear loop exit condition, ins_evt/rm_evt checks will
* set it to 1 while next_cpu_cmd returns a CPU with events
*/
aml_append(while_ctx, aml_store(zero, has_event));
aml_append(while_ctx, aml_store(uid, cpu_selector));
aml_append(while_ctx, aml_store(next_cpu_cmd, cpu_cmd));
/*
* wrap around case, scan is complete, exit loop.
* It happens since events are not cleared in scan loop,
* so next_cpu_cmd continues to find already processed CPUs
*/
ifctx = aml_if(aml_lless(cpu_data, uid));
{
aml_append(ifctx, aml_break());
}
aml_append(while_ctx, ifctx);
/*
* if CPU_ADDED_LIST is full, exit inner loop and process
* collected CPUs
*/
ifctx = aml_if(
aml_equal(num_added_cpus, aml_int(max_cpus_per_pass)));
{
aml_append(ifctx, aml_store(one, has_job));
aml_append(ifctx, aml_break());
}
aml_append(while_ctx, ifctx);
aml_append(while_ctx, aml_store(cpu_data, uid));
ifctx = aml_if(aml_equal(ins_evt, one));
{
/* cache added CPUs to Notify/Wakeup later */
aml_append(ifctx, aml_store(uid,
aml_index(new_cpus, num_added_cpus)));
aml_append(ifctx, aml_increment(num_added_cpus));
aml_append(ifctx, aml_store(one, has_event));
}
aml_append(while_ctx, ifctx);
else_ctx = aml_else();
ifctx = aml_if(aml_equal(rm_evt, one));
{
aml_append(ifctx,
aml_call2(CPU_NOTIFY_METHOD, uid, eject_req));
aml_append(ifctx, aml_store(one, rm_evt));
aml_append(ifctx, aml_store(one, has_event));
}
aml_append(else_ctx, ifctx);
aml_append(while_ctx, else_ctx);
aml_append(while_ctx, aml_increment(uid));
}
aml_append(while_ctx2, while_ctx);
/*
* in case FW negotiated ICH9_LPC_SMI_F_CPU_HOTPLUG_BIT,
* make upcall to FW, so it can pull in new CPUs before
* OS is notified and wakes them up
*/
if (opts.smi_path) {
ifctx = aml_if(aml_lgreater(num_added_cpus, zero));
{
aml_append(ifctx, aml_store(aml_int(OVMF_CPUHP_SMI_CMD),
aml_name("%s", opts.smi_path)));
}
aml_append(while_ctx2, ifctx);
}
/* Notify OSPM about new CPUs and clear insert events */
aml_append(while_ctx2, aml_store(zero, cpu_idx));
while_ctx = aml_while(aml_lless(cpu_idx, num_added_cpus));
{
aml_append(while_ctx,
aml_store(aml_derefof(aml_index(new_cpus, cpu_idx)),
uid));
aml_append(while_ctx,
aml_call2(CPU_NOTIFY_METHOD, uid, dev_chk));
aml_append(while_ctx, aml_store(uid, aml_debug()));
aml_append(while_ctx, aml_store(uid, cpu_selector));
aml_append(while_ctx, aml_store(one, ins_evt));
aml_append(while_ctx, aml_increment(cpu_idx));
}
aml_append(while_ctx2, while_ctx);
/*
* If another batch is needed, then it will resume scanning
* exactly at -- and not after -- the last CPU that's currently
* in CPU_ADDED_LIST. In other words, the last CPU in
* CPU_ADDED_LIST is going to be re-checked. That's OK: we've
* just cleared the insert event for *all* CPUs in
* CPU_ADDED_LIST, including the last one. So the scan will
* simply seek past it.
*/
}
aml_append(method, while_ctx2);
aml_append(method, aml_release(ctrl_lock));
}
aml_append(cpus_dev, method);
method = aml_method(CPU_OST_METHOD, 4, AML_SERIALIZED);
{
Aml *uid = aml_arg(0);
Aml *ev_cmd = aml_int(CPHP_OST_EVENT_CMD);
Aml *st_cmd = aml_int(CPHP_OST_STATUS_CMD);
aml_append(method, aml_acquire(ctrl_lock, 0xFFFF));
aml_append(method, aml_store(uid, cpu_selector));
aml_append(method, aml_store(ev_cmd, cpu_cmd));
aml_append(method, aml_store(aml_arg(1), cpu_data));
aml_append(method, aml_store(st_cmd, cpu_cmd));
aml_append(method, aml_store(aml_arg(2), cpu_data));
aml_append(method, aml_release(ctrl_lock));
}
aml_append(cpus_dev, method);
/* build Processor object for each processor */
for (i = 0; i < arch_ids->len; i++) {
Aml *dev;
Aml *uid = aml_int(i);
GArray *madt_buf = g_array_new(0, 1, 1);
int arch_id = arch_ids->cpus[i].arch_id;
if (opts.acpi_1_compatible && arch_id < 255) {
dev = aml_processor(i, 0, 0, CPU_NAME_FMT, i);
} else {
dev = aml_device(CPU_NAME_FMT, i);
aml_append(dev, aml_name_decl("_HID", aml_string("ACPI0007")));
aml_append(dev, aml_name_decl("_UID", uid));
}
method = aml_method("_STA", 0, AML_SERIALIZED);
aml_append(method, aml_return(aml_call1(CPU_STS_METHOD, uid)));
aml_append(dev, method);
/* build _MAT object */
assert(adevc && adevc->madt_cpu);
adevc->madt_cpu(adev, i, arch_ids, madt_buf,
true); /* set enabled flag */
aml_append(dev, aml_name_decl("_MAT",
aml_buffer(madt_buf->len, (uint8_t *)madt_buf->data)));
g_array_free(madt_buf, true);
if (CPU(arch_ids->cpus[i].cpu) != first_cpu) {
method = aml_method("_EJ0", 1, AML_NOTSERIALIZED);
aml_append(method, aml_call1(CPU_EJECT_METHOD, uid));
aml_append(dev, method);
}
method = aml_method("_OST", 3, AML_SERIALIZED);
aml_append(method,
aml_call4(CPU_OST_METHOD, uid, aml_arg(0),
aml_arg(1), aml_arg(2))
);
aml_append(dev, method);
/* Linux guests discard SRAT info for non-present CPUs
* as a result _PXM is required for all CPUs which might
* be hot-plugged. For simplicity, add it for all CPUs.
*/
if (arch_ids->cpus[i].props.has_node_id) {
aml_append(dev, aml_name_decl("_PXM",
aml_int(arch_ids->cpus[i].props.node_id)));
}
aml_append(cpus_dev, dev);
}
}
aml_append(sb_scope, cpus_dev);
aml_append(table, sb_scope);
method = aml_method(event_handler_method, 0, AML_NOTSERIALIZED);
aml_append(method, aml_call0("\\_SB.CPUS." CPU_SCAN_METHOD));
aml_append(table, method);
g_free(cphp_res_path);
}
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