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path: root/hw/i386/acpi-build.c
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/* Support for generating ACPI tables and passing them to Guests
 *
 * Copyright (C) 2008-2010  Kevin O'Connor <kevin@koconnor.net>
 * Copyright (C) 2006 Fabrice Bellard
 * Copyright (C) 2013 Red Hat Inc
 *
 * Author: Michael S. Tsirkin <mst@redhat.com>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.

 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.

 * You should have received a copy of the GNU General Public License along
 * with this program; if not, see <http://www.gnu.org/licenses/>.
 */

#include "acpi-build.h"
#include <stddef.h>
#include <glib.h>
#include "qemu-common.h"
#include "qemu/bitmap.h"
#include "qemu/osdep.h"
#include "qemu/range.h"
#include "qemu/error-report.h"
#include "hw/pci/pci.h"
#include "qom/cpu.h"
#include "hw/i386/pc.h"
#include "target-i386/cpu.h"
#include "hw/timer/hpet.h"
#include "hw/i386/acpi-defs.h"
#include "hw/acpi/acpi.h"
#include "hw/nvram/fw_cfg.h"
#include "bios-linker-loader.h"
#include "hw/loader.h"
#include "hw/isa/isa.h"
#include "hw/acpi/memory_hotplug.h"
#include "sysemu/tpm.h"
#include "hw/acpi/tpm.h"

/* Supported chipsets: */
#include "hw/acpi/piix4.h"
#include "hw/acpi/pcihp.h"
#include "hw/i386/ich9.h"
#include "hw/pci/pci_bus.h"
#include "hw/pci-host/q35.h"
#include "hw/i386/intel_iommu.h"

#include "hw/i386/q35-acpi-dsdt.hex"
#include "hw/i386/acpi-dsdt.hex"

#include "qapi/qmp/qint.h"
#include "qom/qom-qobject.h"
#include "exec/ram_addr.h"

/* These are used to size the ACPI tables for -M pc-i440fx-1.7 and
 * -M pc-i440fx-2.0.  Even if the actual amount of AML generated grows
 * a little bit, there should be plenty of free space since the DSDT
 * shrunk by ~1.5k between QEMU 2.0 and QEMU 2.1.
 */
#define ACPI_BUILD_LEGACY_CPU_AML_SIZE    97
#define ACPI_BUILD_ALIGN_SIZE             0x1000

#define ACPI_BUILD_TABLE_SIZE             0x20000

/* Reserve RAM space for tables: add another order of magnitude. */
#define ACPI_BUILD_TABLE_MAX_SIZE         0x200000

/* #define DEBUG_ACPI_BUILD */
#ifdef DEBUG_ACPI_BUILD
#define ACPI_BUILD_DPRINTF(fmt, ...)        \
    do {printf("ACPI_BUILD: " fmt, ## __VA_ARGS__); } while (0)
#else
#define ACPI_BUILD_DPRINTF(fmt, ...)
#endif

typedef struct AcpiCpuInfo {
    DECLARE_BITMAP(found_cpus, ACPI_CPU_HOTPLUG_ID_LIMIT);
} AcpiCpuInfo;

typedef struct AcpiMcfgInfo {
    uint64_t mcfg_base;
    uint32_t mcfg_size;
} AcpiMcfgInfo;

typedef struct AcpiPmInfo {
    bool s3_disabled;
    bool s4_disabled;
    bool pcihp_bridge_en;
    uint8_t s4_val;
    uint16_t sci_int;
    uint8_t acpi_enable_cmd;
    uint8_t acpi_disable_cmd;
    uint32_t gpe0_blk;
    uint32_t gpe0_blk_len;
    uint32_t io_base;
} AcpiPmInfo;

typedef struct AcpiMiscInfo {
    bool has_hpet;
    bool has_tpm;
    DECLARE_BITMAP(slot_hotplug_enable, PCI_SLOT_MAX);
    const unsigned char *dsdt_code;
    unsigned dsdt_size;
    uint16_t pvpanic_port;
} AcpiMiscInfo;

typedef struct AcpiBuildPciBusHotplugState {
    GArray *device_table;
    GArray *notify_table;
    struct AcpiBuildPciBusHotplugState *parent;
    bool pcihp_bridge_en;
} AcpiBuildPciBusHotplugState;

static void acpi_get_dsdt(AcpiMiscInfo *info)
{
    uint16_t *applesmc_sta;
    Object *piix = piix4_pm_find();
    Object *lpc = ich9_lpc_find();
    assert(!!piix != !!lpc);

    if (piix) {
        info->dsdt_code = AcpiDsdtAmlCode;
        info->dsdt_size = sizeof AcpiDsdtAmlCode;
        applesmc_sta = piix_dsdt_applesmc_sta;
    }
    if (lpc) {
        info->dsdt_code = Q35AcpiDsdtAmlCode;
        info->dsdt_size = sizeof Q35AcpiDsdtAmlCode;
        applesmc_sta = q35_dsdt_applesmc_sta;
    }

    /* Patch in appropriate value for AppleSMC _STA */
    *(uint8_t *)(info->dsdt_code + *applesmc_sta) =
        applesmc_find() ? 0x0b : 0x00;
}

static
int acpi_add_cpu_info(Object *o, void *opaque)
{
    AcpiCpuInfo *cpu = opaque;
    uint64_t apic_id;

    if (object_dynamic_cast(o, TYPE_CPU)) {
        apic_id = object_property_get_int(o, "apic-id", NULL);
        assert(apic_id < ACPI_CPU_HOTPLUG_ID_LIMIT);

        set_bit(apic_id, cpu->found_cpus);
    }

    object_child_foreach(o, acpi_add_cpu_info, opaque);
    return 0;
}

static void acpi_get_cpu_info(AcpiCpuInfo *cpu)
{
    Object *root = object_get_root();

    memset(cpu->found_cpus, 0, sizeof cpu->found_cpus);
    object_child_foreach(root, acpi_add_cpu_info, cpu);
}

static void acpi_get_pm_info(AcpiPmInfo *pm)
{
    Object *piix = piix4_pm_find();
    Object *lpc = ich9_lpc_find();
    Object *obj = NULL;
    QObject *o;

    if (piix) {
        obj = piix;
    }
    if (lpc) {
        obj = lpc;
    }
    assert(obj);

    /* Fill in optional s3/s4 related properties */
    o = object_property_get_qobject(obj, ACPI_PM_PROP_S3_DISABLED, NULL);
    if (o) {
        pm->s3_disabled = qint_get_int(qobject_to_qint(o));
    } else {
        pm->s3_disabled = false;
    }
    qobject_decref(o);
    o = object_property_get_qobject(obj, ACPI_PM_PROP_S4_DISABLED, NULL);
    if (o) {
        pm->s4_disabled = qint_get_int(qobject_to_qint(o));
    } else {
        pm->s4_disabled = false;
    }
    qobject_decref(o);
    o = object_property_get_qobject(obj, ACPI_PM_PROP_S4_VAL, NULL);
    if (o) {
        pm->s4_val = qint_get_int(qobject_to_qint(o));
    } else {
        pm->s4_val = false;
    }
    qobject_decref(o);

    /* Fill in mandatory properties */
    pm->sci_int = object_property_get_int(obj, ACPI_PM_PROP_SCI_INT, NULL);

    pm->acpi_enable_cmd = object_property_get_int(obj,
                                                  ACPI_PM_PROP_ACPI_ENABLE_CMD,
                                                  NULL);
    pm->acpi_disable_cmd = object_property_get_int(obj,
                                                  ACPI_PM_PROP_ACPI_DISABLE_CMD,
                                                  NULL);
    pm->io_base = object_property_get_int(obj, ACPI_PM_PROP_PM_IO_BASE,
                                          NULL);
    pm->gpe0_blk = object_property_get_int(obj, ACPI_PM_PROP_GPE0_BLK,
                                           NULL);
    pm->gpe0_blk_len = object_property_get_int(obj, ACPI_PM_PROP_GPE0_BLK_LEN,
                                               NULL);
    pm->pcihp_bridge_en =
        object_property_get_bool(obj, "acpi-pci-hotplug-with-bridge-support",
                                 NULL);
}

static void acpi_get_misc_info(AcpiMiscInfo *info)
{
    info->has_hpet = hpet_find();
    info->has_tpm = tpm_find();
    info->pvpanic_port = pvpanic_port();
}

static void acpi_get_pci_info(PcPciInfo *info)
{
    Object *pci_host;
    bool ambiguous;

    pci_host = object_resolve_path_type("", TYPE_PCI_HOST_BRIDGE, &ambiguous);
    g_assert(!ambiguous);
    g_assert(pci_host);

    info->w32.begin = object_property_get_int(pci_host,
                                              PCI_HOST_PROP_PCI_HOLE_START,
                                              NULL);
    info->w32.end = object_property_get_int(pci_host,
                                            PCI_HOST_PROP_PCI_HOLE_END,
                                            NULL);
    info->w64.begin = object_property_get_int(pci_host,
                                              PCI_HOST_PROP_PCI_HOLE64_START,
                                              NULL);
    info->w64.end = object_property_get_int(pci_host,
                                            PCI_HOST_PROP_PCI_HOLE64_END,
                                            NULL);
}

#define ACPI_BUILD_APPNAME  "Bochs"
#define ACPI_BUILD_APPNAME6 "BOCHS "
#define ACPI_BUILD_APPNAME4 "BXPC"

#define ACPI_BUILD_TABLE_FILE "etc/acpi/tables"
#define ACPI_BUILD_RSDP_FILE "etc/acpi/rsdp"
#define ACPI_BUILD_TPMLOG_FILE "etc/tpm/log"

static void
build_header(GArray *linker, GArray *table_data,
             AcpiTableHeader *h, const char *sig, int len, uint8_t rev)
{
    memcpy(&h->signature, sig, 4);
    h->length = cpu_to_le32(len);
    h->revision = rev;
    memcpy(h->oem_id, ACPI_BUILD_APPNAME6, 6);
    memcpy(h->oem_table_id, ACPI_BUILD_APPNAME4, 4);
    memcpy(h->oem_table_id + 4, sig, 4);
    h->oem_revision = cpu_to_le32(1);
    memcpy(h->asl_compiler_id, ACPI_BUILD_APPNAME4, 4);
    h->asl_compiler_revision = cpu_to_le32(1);
    h->checksum = 0;
    /* Checksum to be filled in by Guest linker */
    bios_linker_loader_add_checksum(linker, ACPI_BUILD_TABLE_FILE,
                                    table_data->data, h, len, &h->checksum);
}

static inline GArray *build_alloc_array(void)
{
    return g_array_new(false, true /* clear */, 1);
}

static inline void build_free_array(GArray *array)
{
    g_array_free(array, true);
}

static inline void build_prepend_byte(GArray *array, uint8_t val)
{
    g_array_prepend_val(array, val);
}

static inline void build_append_byte(GArray *array, uint8_t val)
{
    g_array_append_val(array, val);
}

static inline void build_append_array(GArray *array, GArray *val)
{
    g_array_append_vals(array, val->data, val->len);
}

#define ACPI_NAMESEG_LEN 4

static void GCC_FMT_ATTR(2, 3)
build_append_nameseg(GArray *array, const char *format, ...)
{
    /* It would be nicer to use g_string_vprintf but it's only there in 2.22 */
    char s[] = "XXXX";
    int len;
    va_list args;

    va_start(args, format);
    len = vsnprintf(s, sizeof s, format, args);
    va_end(args);

    assert(len <= ACPI_NAMESEG_LEN);

    g_array_append_vals(array, s, len);
    /* Pad up to ACPI_NAMESEG_LEN characters if necessary. */
    g_array_append_vals(array, "____", ACPI_NAMESEG_LEN - len);
}

/* 5.4 Definition Block Encoding */
enum {
    PACKAGE_LENGTH_1BYTE_SHIFT = 6, /* Up to 63 - use extra 2 bits. */
    PACKAGE_LENGTH_2BYTE_SHIFT = 4,
    PACKAGE_LENGTH_3BYTE_SHIFT = 12,
    PACKAGE_LENGTH_4BYTE_SHIFT = 20,
};

static void build_prepend_package_length(GArray *package, unsigned min_bytes)
{
    uint8_t byte;
    unsigned length = package->len;
    unsigned length_bytes;

    if (length + 1 < (1 << PACKAGE_LENGTH_1BYTE_SHIFT)) {
        length_bytes = 1;
    } else if (length + 2 < (1 << PACKAGE_LENGTH_3BYTE_SHIFT)) {
        length_bytes = 2;
    } else if (length + 3 < (1 << PACKAGE_LENGTH_4BYTE_SHIFT)) {
        length_bytes = 3;
    } else {
        length_bytes = 4;
    }

    /* Force length to at least min_bytes.
     * This wastes memory but that's how bios did it.
     */
    length_bytes = MAX(length_bytes, min_bytes);

    /* PkgLength is the length of the inclusive length of the data. */
    length += length_bytes;

    switch (length_bytes) {
    case 1:
        byte = length;
        build_prepend_byte(package, byte);
        return;
    case 4:
        byte = length >> PACKAGE_LENGTH_4BYTE_SHIFT;
        build_prepend_byte(package, byte);
        length &= (1 << PACKAGE_LENGTH_4BYTE_SHIFT) - 1;
        /* fall through */
    case 3:
        byte = length >> PACKAGE_LENGTH_3BYTE_SHIFT;
        build_prepend_byte(package, byte);
        length &= (1 << PACKAGE_LENGTH_3BYTE_SHIFT) - 1;
        /* fall through */
    case 2:
        byte = length >> PACKAGE_LENGTH_2BYTE_SHIFT;
        build_prepend_byte(package, byte);
        length &= (1 << PACKAGE_LENGTH_2BYTE_SHIFT) - 1;
        /* fall through */
    }
    /*
     * Most significant two bits of byte zero indicate how many following bytes
     * are in PkgLength encoding.
     */
    byte = ((length_bytes - 1) << PACKAGE_LENGTH_1BYTE_SHIFT) | length;
    build_prepend_byte(package, byte);
}

static void build_package(GArray *package, uint8_t op, unsigned min_bytes)
{
    build_prepend_package_length(package, min_bytes);
    build_prepend_byte(package, op);
}

static void build_extop_package(GArray *package, uint8_t op)
{
    build_package(package, op, 1);
    build_prepend_byte(package, 0x5B); /* ExtOpPrefix */
}

static void build_append_value(GArray *table, uint32_t value, int size)
{
    uint8_t prefix;
    int i;

    switch (size) {
    case 1:
        prefix = 0x0A; /* BytePrefix */
        break;
    case 2:
        prefix = 0x0B; /* WordPrefix */
        break;
    case 4:
        prefix = 0x0C; /* DWordPrefix */
        break;
    default:
        assert(0);
        return;
    }
    build_append_byte(table, prefix);
    for (i = 0; i < size; ++i) {
        build_append_byte(table, value & 0xFF);
        value = value >> 8;
    }
}

static void build_append_int(GArray *table, uint32_t value)
{
    if (value == 0x00) {
        build_append_byte(table, 0x00); /* ZeroOp */
    } else if (value == 0x01) {
        build_append_byte(table, 0x01); /* OneOp */
    } else if (value <= 0xFF) {
        build_append_value(table, value, 1);
    } else if (value <= 0xFFFF) {
        build_append_value(table, value, 2);
    } else {
        build_append_value(table, value, 4);
    }
}

static GArray *build_alloc_method(const char *name, uint8_t arg_count)
{
    GArray *method = build_alloc_array();

    build_append_nameseg(method, "%s", name);
    build_append_byte(method, arg_count); /* MethodFlags: ArgCount */

    return method;
}

static void build_append_and_cleanup_method(GArray *device, GArray *method)
{
    uint8_t op = 0x14; /* MethodOp */

    build_package(method, op, 0);

    build_append_array(device, method);
    build_free_array(method);
}

static void build_append_notify_target_ifequal(GArray *method,
                                               GArray *target_name,
                                               uint32_t value, int size)
{
    GArray *notify = build_alloc_array();
    uint8_t op = 0xA0; /* IfOp */

    build_append_byte(notify, 0x93); /* LEqualOp */
    build_append_byte(notify, 0x68); /* Arg0Op */
    build_append_value(notify, value, size);
    build_append_byte(notify, 0x86); /* NotifyOp */
    build_append_array(notify, target_name);
    build_append_byte(notify, 0x69); /* Arg1Op */

    /* Pack it up */
    build_package(notify, op, 1);

    build_append_array(method, notify);

    build_free_array(notify);
}

/* End here */
#define ACPI_PORT_SMI_CMD           0x00b2 /* TODO: this is APM_CNT_IOPORT */

static inline void *acpi_data_push(GArray *table_data, unsigned size)
{
    unsigned off = table_data->len;
    g_array_set_size(table_data, off + size);
    return table_data->data + off;
}

static unsigned acpi_data_len(GArray *table)
{
#if GLIB_CHECK_VERSION(2, 22, 0)
    assert(g_array_get_element_size(table) == 1);
#endif
    return table->len;
}

static void acpi_align_size(GArray *blob, unsigned align)
{
    /* Align size to multiple of given size. This reduces the chance
     * we need to change size in the future (breaking cross version migration).
     */
    g_array_set_size(blob, ROUND_UP(acpi_data_len(blob), align));
}

/* Set a value within table in a safe manner */
#define ACPI_BUILD_SET_LE(table, size, off, bits, val) \
    do { \
        uint64_t ACPI_BUILD_SET_LE_val = cpu_to_le64(val); \
        memcpy(acpi_data_get_ptr(table, size, off, \
                                 (bits) / BITS_PER_BYTE), \
               &ACPI_BUILD_SET_LE_val, \
               (bits) / BITS_PER_BYTE); \
    } while (0)

static inline void *acpi_data_get_ptr(uint8_t *table_data, unsigned table_size,
                                      unsigned off, unsigned size)
{
    assert(off + size > off);
    assert(off + size <= table_size);
    return table_data + off;
}

static inline void acpi_add_table(GArray *table_offsets, GArray *table_data)
{
    uint32_t offset = cpu_to_le32(table_data->len);
    g_array_append_val(table_offsets, offset);
}

/* FACS */
static void
build_facs(GArray *table_data, GArray *linker, PcGuestInfo *guest_info)
{
    AcpiFacsDescriptorRev1 *facs = acpi_data_push(table_data, sizeof *facs);
    memcpy(&facs->signature, "FACS", 4);
    facs->length = cpu_to_le32(sizeof(*facs));
}

/* Load chipset information in FADT */
static void fadt_setup(AcpiFadtDescriptorRev1 *fadt, AcpiPmInfo *pm)
{
    fadt->model = 1;
    fadt->reserved1 = 0;
    fadt->sci_int = cpu_to_le16(pm->sci_int);
    fadt->smi_cmd = cpu_to_le32(ACPI_PORT_SMI_CMD);
    fadt->acpi_enable = pm->acpi_enable_cmd;
    fadt->acpi_disable = pm->acpi_disable_cmd;
    /* EVT, CNT, TMR offset matches hw/acpi/core.c */
    fadt->pm1a_evt_blk = cpu_to_le32(pm->io_base);
    fadt->pm1a_cnt_blk = cpu_to_le32(pm->io_base + 0x04);
    fadt->pm_tmr_blk = cpu_to_le32(pm->io_base + 0x08);
    fadt->gpe0_blk = cpu_to_le32(pm->gpe0_blk);
    /* EVT, CNT, TMR length matches hw/acpi/core.c */
    fadt->pm1_evt_len = 4;
    fadt->pm1_cnt_len = 2;
    fadt->pm_tmr_len = 4;
    fadt->gpe0_blk_len = pm->gpe0_blk_len;
    fadt->plvl2_lat = cpu_to_le16(0xfff); /* C2 state not supported */
    fadt->plvl3_lat = cpu_to_le16(0xfff); /* C3 state not supported */
    fadt->flags = cpu_to_le32((1 << ACPI_FADT_F_WBINVD) |
                              (1 << ACPI_FADT_F_PROC_C1) |
                              (1 << ACPI_FADT_F_SLP_BUTTON) |
                              (1 << ACPI_FADT_F_RTC_S4));
    fadt->flags |= cpu_to_le32(1 << ACPI_FADT_F_USE_PLATFORM_CLOCK);
    /* APIC destination mode ("Flat Logical") has an upper limit of 8 CPUs
     * For more than 8 CPUs, "Clustered Logical" mode has to be used
     */
    if (max_cpus > 8) {
        fadt->flags |= cpu_to_le32(1 << ACPI_FADT_F_FORCE_APIC_CLUSTER_MODEL);
    }
}


/* FADT */
static void
build_fadt(GArray *table_data, GArray *linker, AcpiPmInfo *pm,
           unsigned facs, unsigned dsdt)
{
    AcpiFadtDescriptorRev1 *fadt = acpi_data_push(table_data, sizeof(*fadt));

    fadt->firmware_ctrl = cpu_to_le32(facs);
    /* FACS address to be filled by Guest linker */
    bios_linker_loader_add_pointer(linker, ACPI_BUILD_TABLE_FILE,
                                   ACPI_BUILD_TABLE_FILE,
                                   table_data, &fadt->firmware_ctrl,
                                   sizeof fadt->firmware_ctrl);

    fadt->dsdt = cpu_to_le32(dsdt);
    /* DSDT address to be filled by Guest linker */
    bios_linker_loader_add_pointer(linker, ACPI_BUILD_TABLE_FILE,
                                   ACPI_BUILD_TABLE_FILE,
                                   table_data, &fadt->dsdt,
                                   sizeof fadt->dsdt);

    fadt_setup(fadt, pm);

    build_header(linker, table_data,
                 (void *)fadt, "FACP", sizeof(*fadt), 1);
}

static void
build_madt(GArray *table_data, GArray *linker, AcpiCpuInfo *cpu,
           PcGuestInfo *guest_info)
{
    int madt_start = table_data->len;

    AcpiMultipleApicTable *madt;
    AcpiMadtIoApic *io_apic;
    AcpiMadtIntsrcovr *intsrcovr;
    AcpiMadtLocalNmi *local_nmi;
    int i;

    madt = acpi_data_push(table_data, sizeof *madt);
    madt->local_apic_address = cpu_to_le32(APIC_DEFAULT_ADDRESS);
    madt->flags = cpu_to_le32(1);

    for (i = 0; i < guest_info->apic_id_limit; i++) {
        AcpiMadtProcessorApic *apic = acpi_data_push(table_data, sizeof *apic);
        apic->type = ACPI_APIC_PROCESSOR;
        apic->length = sizeof(*apic);
        apic->processor_id = i;
        apic->local_apic_id = i;
        if (test_bit(i, cpu->found_cpus)) {
            apic->flags = cpu_to_le32(1);
        } else {
            apic->flags = cpu_to_le32(0);
        }
    }
    io_apic = acpi_data_push(table_data, sizeof *io_apic);
    io_apic->type = ACPI_APIC_IO;
    io_apic->length = sizeof(*io_apic);
#define ACPI_BUILD_IOAPIC_ID 0x0
    io_apic->io_apic_id = ACPI_BUILD_IOAPIC_ID;
    io_apic->address = cpu_to_le32(IO_APIC_DEFAULT_ADDRESS);
    io_apic->interrupt = cpu_to_le32(0);

    if (guest_info->apic_xrupt_override) {
        intsrcovr = acpi_data_push(table_data, sizeof *intsrcovr);
        intsrcovr->type   = ACPI_APIC_XRUPT_OVERRIDE;
        intsrcovr->length = sizeof(*intsrcovr);
        intsrcovr->source = 0;
        intsrcovr->gsi    = cpu_to_le32(2);
        intsrcovr->flags  = cpu_to_le16(0); /* conforms to bus specifications */
    }
    for (i = 1; i < 16; i++) {
#define ACPI_BUILD_PCI_IRQS ((1<<5) | (1<<9) | (1<<10) | (1<<11))
        if (!(ACPI_BUILD_PCI_IRQS & (1 << i))) {
            /* No need for a INT source override structure. */
            continue;
        }
        intsrcovr = acpi_data_push(table_data, sizeof *intsrcovr);
        intsrcovr->type   = ACPI_APIC_XRUPT_OVERRIDE;
        intsrcovr->length = sizeof(*intsrcovr);
        intsrcovr->source = i;
        intsrcovr->gsi    = cpu_to_le32(i);
        intsrcovr->flags  = cpu_to_le16(0xd); /* active high, level triggered */
    }

    local_nmi = acpi_data_push(table_data, sizeof *local_nmi);
    local_nmi->type         = ACPI_APIC_LOCAL_NMI;
    local_nmi->length       = sizeof(*local_nmi);
    local_nmi->processor_id = 0xff; /* all processors */
    local_nmi->flags        = cpu_to_le16(0);
    local_nmi->lint         = 1; /* ACPI_LINT1 */

    build_header(linker, table_data,
                 (void *)(table_data->data + madt_start), "APIC",
                 table_data->len - madt_start, 1);
}

/* Encode a hex value */
static inline char acpi_get_hex(uint32_t val)
{
    val &= 0x0f;
    return (val <= 9) ? ('0' + val) : ('A' + val - 10);
}

#include "hw/i386/ssdt-proc.hex"

/* 0x5B 0x83 ProcessorOp PkgLength NameString ProcID */
#define ACPI_PROC_OFFSET_CPUHEX (*ssdt_proc_name - *ssdt_proc_start + 2)
#define ACPI_PROC_OFFSET_CPUID1 (*ssdt_proc_name - *ssdt_proc_start + 4)
#define ACPI_PROC_OFFSET_CPUID2 (*ssdt_proc_id - *ssdt_proc_start)
#define ACPI_PROC_SIZEOF (*ssdt_proc_end - *ssdt_proc_start)
#define ACPI_PROC_AML (ssdp_proc_aml + *ssdt_proc_start)

/* 0x5B 0x82 DeviceOp PkgLength NameString */
#define ACPI_PCIHP_OFFSET_HEX (*ssdt_pcihp_name - *ssdt_pcihp_start + 1)
#define ACPI_PCIHP_OFFSET_ID (*ssdt_pcihp_id - *ssdt_pcihp_start)
#define ACPI_PCIHP_OFFSET_ADR (*ssdt_pcihp_adr - *ssdt_pcihp_start)
#define ACPI_PCIHP_OFFSET_EJ0 (*ssdt_pcihp_ej0 - *ssdt_pcihp_start)
#define ACPI_PCIHP_SIZEOF (*ssdt_pcihp_end - *ssdt_pcihp_start)
#define ACPI_PCIHP_AML (ssdp_pcihp_aml + *ssdt_pcihp_start)

#define ACPI_PCINOHP_OFFSET_HEX (*ssdt_pcinohp_name - *ssdt_pcinohp_start + 1)
#define ACPI_PCINOHP_OFFSET_ADR (*ssdt_pcinohp_adr - *ssdt_pcinohp_start)
#define ACPI_PCINOHP_SIZEOF (*ssdt_pcinohp_end - *ssdt_pcinohp_start)
#define ACPI_PCINOHP_AML (ssdp_pcihp_aml + *ssdt_pcinohp_start)

#define ACPI_PCIVGA_OFFSET_HEX (*ssdt_pcivga_name - *ssdt_pcivga_start + 1)
#define ACPI_PCIVGA_OFFSET_ADR (*ssdt_pcivga_adr - *ssdt_pcivga_start)
#define ACPI_PCIVGA_SIZEOF (*ssdt_pcivga_end - *ssdt_pcivga_start)
#define ACPI_PCIVGA_AML (ssdp_pcihp_aml + *ssdt_pcivga_start)

#define ACPI_PCIQXL_OFFSET_HEX (*ssdt_pciqxl_name - *ssdt_pciqxl_start + 1)
#define ACPI_PCIQXL_OFFSET_ADR (*ssdt_pciqxl_adr - *ssdt_pciqxl_start)
#define ACPI_PCIQXL_SIZEOF (*ssdt_pciqxl_end - *ssdt_pciqxl_start)
#define ACPI_PCIQXL_AML (ssdp_pcihp_aml + *ssdt_pciqxl_start)

#include "hw/i386/ssdt-mem.hex"

/* 0x5B 0x82 DeviceOp PkgLength NameString DimmID */
#define ACPI_MEM_OFFSET_HEX (*ssdt_mem_name - *ssdt_mem_start + 2)
#define ACPI_MEM_OFFSET_ID (*ssdt_mem_id - *ssdt_mem_start + 7)
#define ACPI_MEM_SIZEOF (*ssdt_mem_end - *ssdt_mem_start)
#define ACPI_MEM_AML (ssdm_mem_aml + *ssdt_mem_start)

#define ACPI_SSDT_SIGNATURE 0x54445353 /* SSDT */
#define ACPI_SSDT_HEADER_LENGTH 36

#include "hw/i386/ssdt-misc.hex"
#include "hw/i386/ssdt-pcihp.hex"
#include "hw/i386/ssdt-tpm.hex"

static void
build_append_notify_method(GArray *device, const char *name,
                           const char *format, int count)
{
    int i;
    GArray *method = build_alloc_method(name, 2);

    for (i = 0; i < count; i++) {
        GArray *target = build_alloc_array();
        build_append_nameseg(target, format, i);
        assert(i < 256); /* Fits in 1 byte */
        build_append_notify_target_ifequal(method, target, i, 1);
        build_free_array(target);
    }

    build_append_and_cleanup_method(device, method);
}

static void patch_pcihp(int slot, uint8_t *ssdt_ptr)
{
    unsigned devfn = PCI_DEVFN(slot, 0);

    ssdt_ptr[ACPI_PCIHP_OFFSET_HEX] = acpi_get_hex(devfn >> 4);
    ssdt_ptr[ACPI_PCIHP_OFFSET_HEX + 1] = acpi_get_hex(devfn);
    ssdt_ptr[ACPI_PCIHP_OFFSET_ID] = slot;
    ssdt_ptr[ACPI_PCIHP_OFFSET_ADR + 2] = slot;
}

static void patch_pcinohp(int slot, uint8_t *ssdt_ptr)
{
    unsigned devfn = PCI_DEVFN(slot, 0);

    ssdt_ptr[ACPI_PCINOHP_OFFSET_HEX] = acpi_get_hex(devfn >> 4);
    ssdt_ptr[ACPI_PCINOHP_OFFSET_HEX + 1] = acpi_get_hex(devfn);
    ssdt_ptr[ACPI_PCINOHP_OFFSET_ADR + 2] = slot;
}

static void patch_pcivga(int slot, uint8_t *ssdt_ptr)
{
    unsigned devfn = PCI_DEVFN(slot, 0);

    ssdt_ptr[ACPI_PCIVGA_OFFSET_HEX] = acpi_get_hex(devfn >> 4);
    ssdt_ptr[ACPI_PCIVGA_OFFSET_HEX + 1] = acpi_get_hex(devfn);
    ssdt_ptr[ACPI_PCIVGA_OFFSET_ADR + 2] = slot;
}

static void patch_pciqxl(int slot, uint8_t *ssdt_ptr)
{
    unsigned devfn = PCI_DEVFN(slot, 0);

    ssdt_ptr[ACPI_PCIQXL_OFFSET_HEX] = acpi_get_hex(devfn >> 4);
    ssdt_ptr[ACPI_PCIQXL_OFFSET_HEX + 1] = acpi_get_hex(devfn);
    ssdt_ptr[ACPI_PCIQXL_OFFSET_ADR + 2] = slot;
}

/* Assign BSEL property to all buses.  In the future, this can be changed
 * to only assign to buses that support hotplug.
 */
static void *acpi_set_bsel(PCIBus *bus, void *opaque)
{
    unsigned *bsel_alloc = opaque;
    unsigned *bus_bsel;

    if (qbus_is_hotpluggable(BUS(bus))) {
        bus_bsel = g_malloc(sizeof *bus_bsel);

        *bus_bsel = (*bsel_alloc)++;
        object_property_add_uint32_ptr(OBJECT(bus), ACPI_PCIHP_PROP_BSEL,
                                       bus_bsel, NULL);
    }

    return bsel_alloc;
}

static void acpi_set_pci_info(void)
{
    PCIBus *bus = find_i440fx(); /* TODO: Q35 support */
    unsigned bsel_alloc = 0;

    if (bus) {
        /* Scan all PCI buses. Set property to enable acpi based hotplug. */
        pci_for_each_bus_depth_first(bus, acpi_set_bsel, NULL, &bsel_alloc);
    }
}

static void build_pci_bus_state_init(AcpiBuildPciBusHotplugState *state,
                                     AcpiBuildPciBusHotplugState *parent,
                                     bool pcihp_bridge_en)
{
    state->parent = parent;
    state->device_table = build_alloc_array();
    state->notify_table = build_alloc_array();
    state->pcihp_bridge_en = pcihp_bridge_en;
}

static void build_pci_bus_state_cleanup(AcpiBuildPciBusHotplugState *state)
{
    build_free_array(state->device_table);
    build_free_array(state->notify_table);
}

static void *build_pci_bus_begin(PCIBus *bus, void *parent_state)
{
    AcpiBuildPciBusHotplugState *parent = parent_state;
    AcpiBuildPciBusHotplugState *child = g_malloc(sizeof *child);

    build_pci_bus_state_init(child, parent, parent->pcihp_bridge_en);

    return child;
}

static void build_pci_bus_end(PCIBus *bus, void *bus_state)
{
    AcpiBuildPciBusHotplugState *child = bus_state;
    AcpiBuildPciBusHotplugState *parent = child->parent;
    GArray *bus_table = build_alloc_array();
    DECLARE_BITMAP(slot_hotplug_enable, PCI_SLOT_MAX);
    DECLARE_BITMAP(slot_device_present, PCI_SLOT_MAX);
    DECLARE_BITMAP(slot_device_system, PCI_SLOT_MAX);
    DECLARE_BITMAP(slot_device_vga, PCI_SLOT_MAX);
    DECLARE_BITMAP(slot_device_qxl, PCI_SLOT_MAX);
    uint8_t op;
    int i;
    QObject *bsel;
    GArray *method;
    bool bus_hotplug_support = false;

    /*
     * Skip bridge subtree creation if bridge hotplug is disabled
     * to make acpi tables compatible with legacy machine types.
     */
    if (!child->pcihp_bridge_en && bus->parent_dev) {
        return;
    }

    if (bus->parent_dev) {
        op = 0x82; /* DeviceOp */
        build_append_nameseg(bus_table, "S%.02X",
                             bus->parent_dev->devfn);
        build_append_byte(bus_table, 0x08); /* NameOp */
        build_append_nameseg(bus_table, "_SUN");
        build_append_value(bus_table, PCI_SLOT(bus->parent_dev->devfn), 1);
        build_append_byte(bus_table, 0x08); /* NameOp */
        build_append_nameseg(bus_table, "_ADR");
        build_append_value(bus_table, (PCI_SLOT(bus->parent_dev->devfn) << 16) |
                           PCI_FUNC(bus->parent_dev->devfn), 4);
    } else {
        op = 0x10; /* ScopeOp */;
        build_append_nameseg(bus_table, "PCI0");
    }

    bsel = object_property_get_qobject(OBJECT(bus), ACPI_PCIHP_PROP_BSEL, NULL);
    if (bsel) {
        build_append_byte(bus_table, 0x08); /* NameOp */
        build_append_nameseg(bus_table, "BSEL");
        build_append_int(bus_table, qint_get_int(qobject_to_qint(bsel)));
        memset(slot_hotplug_enable, 0xff, sizeof slot_hotplug_enable);
    } else {
        /* No bsel - no slots are hot-pluggable */
        memset(slot_hotplug_enable, 0x00, sizeof slot_hotplug_enable);
    }

    memset(slot_device_present, 0x00, sizeof slot_device_present);
    memset(slot_device_system, 0x00, sizeof slot_device_present);
    memset(slot_device_vga, 0x00, sizeof slot_device_vga);
    memset(slot_device_qxl, 0x00, sizeof slot_device_qxl);

    for (i = 0; i < ARRAY_SIZE(bus->devices); i += PCI_FUNC_MAX) {
        DeviceClass *dc;
        PCIDeviceClass *pc;
        PCIDevice *pdev = bus->devices[i];
        int slot = PCI_SLOT(i);
        bool bridge_in_acpi;

        if (!pdev) {
            continue;
        }

        set_bit(slot, slot_device_present);
        pc = PCI_DEVICE_GET_CLASS(pdev);
        dc = DEVICE_GET_CLASS(pdev);

        /* When hotplug for bridges is enabled, bridges are
         * described in ACPI separately (see build_pci_bus_end).
         * In this case they aren't themselves hot-pluggable.
         */
        bridge_in_acpi = pc->is_bridge && child->pcihp_bridge_en;

        if (pc->class_id == PCI_CLASS_BRIDGE_ISA || bridge_in_acpi) {
            set_bit(slot, slot_device_system);
        }

        if (pc->class_id == PCI_CLASS_DISPLAY_VGA) {
            set_bit(slot, slot_device_vga);

            if (object_dynamic_cast(OBJECT(pdev), "qxl-vga")) {
                set_bit(slot, slot_device_qxl);
            }
        }

        if (!dc->hotpluggable || bridge_in_acpi) {
            clear_bit(slot, slot_hotplug_enable);
        }
    }

    /* Append Device object for each slot */
    for (i = 0; i < PCI_SLOT_MAX; i++) {
        bool can_eject = test_bit(i, slot_hotplug_enable);
        bool present = test_bit(i, slot_device_present);
        bool vga = test_bit(i, slot_device_vga);
        bool qxl = test_bit(i, slot_device_qxl);
        bool system = test_bit(i, slot_device_system);
        if (can_eject) {
            void *pcihp = acpi_data_push(bus_table,
                                         ACPI_PCIHP_SIZEOF);
            memcpy(pcihp, ACPI_PCIHP_AML, ACPI_PCIHP_SIZEOF);
            patch_pcihp(i, pcihp);
            bus_hotplug_support = true;
        } else if (qxl) {
            void *pcihp = acpi_data_push(bus_table,
                                         ACPI_PCIQXL_SIZEOF);
            memcpy(pcihp, ACPI_PCIQXL_AML, ACPI_PCIQXL_SIZEOF);
            patch_pciqxl(i, pcihp);
        } else if (vga) {
            void *pcihp = acpi_data_push(bus_table,
                                         ACPI_PCIVGA_SIZEOF);
            memcpy(pcihp, ACPI_PCIVGA_AML, ACPI_PCIVGA_SIZEOF);
            patch_pcivga(i, pcihp);
        } else if (system) {
            /* Nothing to do: system devices are in DSDT or in SSDT above. */
        } else if (present) {
            void *pcihp = acpi_data_push(bus_table,
                                         ACPI_PCINOHP_SIZEOF);
            memcpy(pcihp, ACPI_PCINOHP_AML, ACPI_PCINOHP_SIZEOF);
            patch_pcinohp(i, pcihp);
        }
    }

    if (bsel) {
        method = build_alloc_method("DVNT", 2);

        for (i = 0; i < PCI_SLOT_MAX; i++) {
            GArray *notify;
            uint8_t op;

            if (!test_bit(i, slot_hotplug_enable)) {
                continue;
            }

            notify = build_alloc_array();
            op = 0xA0; /* IfOp */

            build_append_byte(notify, 0x7B); /* AndOp */
            build_append_byte(notify, 0x68); /* Arg0Op */
            build_append_int(notify, 0x1U << i);
            build_append_byte(notify, 0x00); /* NullName */
            build_append_byte(notify, 0x86); /* NotifyOp */
            build_append_nameseg(notify, "S%.02X", PCI_DEVFN(i, 0));
            build_append_byte(notify, 0x69); /* Arg1Op */

            /* Pack it up */
            build_package(notify, op, 0);

            build_append_array(method, notify);

            build_free_array(notify);
        }

        build_append_and_cleanup_method(bus_table, method);
    }

    /* Append PCNT method to notify about events on local and child buses.
     * Add unconditionally for root since DSDT expects it.
     */
    if (bus_hotplug_support || child->notify_table->len || !bus->parent_dev) {
        method = build_alloc_method("PCNT", 0);

        /* If bus supports hotplug select it and notify about local events */
        if (bsel) {
            build_append_byte(method, 0x70); /* StoreOp */
            build_append_int(method, qint_get_int(qobject_to_qint(bsel)));
            build_append_nameseg(method, "BNUM");
            build_append_nameseg(method, "DVNT");
            build_append_nameseg(method, "PCIU");
            build_append_int(method, 1); /* Device Check */
            build_append_nameseg(method, "DVNT");
            build_append_nameseg(method, "PCID");
            build_append_int(method, 3); /* Eject Request */
        }

        /* Notify about child bus events in any case */
        build_append_array(method, child->notify_table);

        build_append_and_cleanup_method(bus_table, method);

        /* Append description of child buses */
        build_append_array(bus_table, child->device_table);

        /* Pack it up */
        if (bus->parent_dev) {
            build_extop_package(bus_table, op);
        } else {
            build_package(bus_table, op, 0);
        }

        /* Append our bus description to parent table */
        build_append_array(parent->device_table, bus_table);

        /* Also tell parent how to notify us, invoking PCNT method.
         * At the moment this is not needed for root as we have a single root.
         */
        if (bus->parent_dev) {
            build_append_byte(parent->notify_table, '^'); /* ParentPrefixChar */
            build_append_byte(parent->notify_table, 0x2E); /* DualNamePrefix */
            build_append_nameseg(parent->notify_table, "S%.02X",
                                 bus->parent_dev->devfn);
            build_append_nameseg(parent->notify_table, "PCNT");
        }
    }

    qobject_decref(bsel);
    build_free_array(bus_table);
    build_pci_bus_state_cleanup(child);
    g_free(child);
}

static void patch_pci_windows(PcPciInfo *pci, uint8_t *start, unsigned size)
{
    ACPI_BUILD_SET_LE(start, size, acpi_pci32_start[0], 32, pci->w32.begin);

    ACPI_BUILD_SET_LE(start, size, acpi_pci32_end[0], 32, pci->w32.end - 1);

    if (pci->w64.end || pci->w64.begin) {
        ACPI_BUILD_SET_LE(start, size, acpi_pci64_valid[0], 8, 1);
        ACPI_BUILD_SET_LE(start, size, acpi_pci64_start[0], 64, pci->w64.begin);
        ACPI_BUILD_SET_LE(start, size, acpi_pci64_end[0], 64, pci->w64.end - 1);
        ACPI_BUILD_SET_LE(start, size, acpi_pci64_length[0], 64, pci->w64.end - pci->w64.begin);
    } else {
        ACPI_BUILD_SET_LE(start, size, acpi_pci64_valid[0], 8, 0);
    }
}

static void
build_ssdt(GArray *table_data, GArray *linker,
           AcpiCpuInfo *cpu, AcpiPmInfo *pm, AcpiMiscInfo *misc,
           PcPciInfo *pci, PcGuestInfo *guest_info)
{
    MachineState *machine = MACHINE(qdev_get_machine());
    uint32_t nr_mem = machine->ram_slots;
    unsigned acpi_cpus = guest_info->apic_id_limit;
    int ssdt_start = table_data->len;
    uint8_t *ssdt_ptr;
    int i;

    /* The current AML generator can cover the APIC ID range [0..255],
     * inclusive, for VCPU hotplug. */
    QEMU_BUILD_BUG_ON(ACPI_CPU_HOTPLUG_ID_LIMIT > 256);
    g_assert(acpi_cpus <= ACPI_CPU_HOTPLUG_ID_LIMIT);

    /* Copy header and patch values in the S3_ / S4_ / S5_ packages */
    ssdt_ptr = acpi_data_push(table_data, sizeof(ssdp_misc_aml));
    memcpy(ssdt_ptr, ssdp_misc_aml, sizeof(ssdp_misc_aml));
    if (pm->s3_disabled) {
        ssdt_ptr[acpi_s3_name[0]] = 'X';
    }
    if (pm->s4_disabled) {
        ssdt_ptr[acpi_s4_name[0]] = 'X';
    } else {
        ssdt_ptr[acpi_s4_pkg[0] + 1] = ssdt_ptr[acpi_s4_pkg[0] + 3] =
            pm->s4_val;
    }

    patch_pci_windows(pci, ssdt_ptr, sizeof(ssdp_misc_aml));

    ACPI_BUILD_SET_LE(ssdt_ptr, sizeof(ssdp_misc_aml),
                      ssdt_isa_pest[0], 16, misc->pvpanic_port);

    ACPI_BUILD_SET_LE(ssdt_ptr, sizeof(ssdp_misc_aml),
                      ssdt_mctrl_nr_slots[0], 32, nr_mem);

    {
        GArray *sb_scope = build_alloc_array();
        uint8_t op = 0x10; /* ScopeOp */

        build_append_nameseg(sb_scope, "_SB");

        /* build Processor object for each processor */
        for (i = 0; i < acpi_cpus; i++) {
            uint8_t *proc = acpi_data_push(sb_scope, ACPI_PROC_SIZEOF);
            memcpy(proc, ACPI_PROC_AML, ACPI_PROC_SIZEOF);
            proc[ACPI_PROC_OFFSET_CPUHEX] = acpi_get_hex(i >> 4);
            proc[ACPI_PROC_OFFSET_CPUHEX+1] = acpi_get_hex(i);
            proc[ACPI_PROC_OFFSET_CPUID1] = i;
            proc[ACPI_PROC_OFFSET_CPUID2] = i;
        }

        /* build this code:
         *   Method(NTFY, 2) {If (LEqual(Arg0, 0x00)) {Notify(CP00, Arg1)} ...}
         */
        /* Arg0 = Processor ID = APIC ID */
        build_append_notify_method(sb_scope, "NTFY", "CP%0.02X", acpi_cpus);

        /* build "Name(CPON, Package() { One, One, ..., Zero, Zero, ... })" */
        build_append_byte(sb_scope, 0x08); /* NameOp */
        build_append_nameseg(sb_scope, "CPON");

        {
            GArray *package = build_alloc_array();
            uint8_t op;

            /*
             * Note: The ability to create variable-sized packages was first introduced in ACPI 2.0. ACPI 1.0 only
             * allowed fixed-size packages with up to 255 elements.
             * Windows guests up to win2k8 fail when VarPackageOp is used.
             */
            if (acpi_cpus <= 255) {
                op = 0x12; /* PackageOp */
                build_append_byte(package, acpi_cpus); /* NumElements */
            } else {
                op = 0x13; /* VarPackageOp */
                build_append_int(package, acpi_cpus); /* VarNumElements */
            }

            for (i = 0; i < acpi_cpus; i++) {
                uint8_t b = test_bit(i, cpu->found_cpus) ? 0x01 : 0x00;
                build_append_byte(package, b);
            }

            build_package(package, op, 2);
            build_append_array(sb_scope, package);
            build_free_array(package);
        }

        if (nr_mem) {
            assert(nr_mem <= ACPI_MAX_RAM_SLOTS);
            /* build memory devices */
            for (i = 0; i < nr_mem; i++) {
                char id[3];
                uint8_t *mem = acpi_data_push(sb_scope, ACPI_MEM_SIZEOF);

                snprintf(id, sizeof(id), "%02X", i);
                memcpy(mem, ACPI_MEM_AML, ACPI_MEM_SIZEOF);
                memcpy(mem + ACPI_MEM_OFFSET_HEX, id, 2);
                memcpy(mem + ACPI_MEM_OFFSET_ID, id, 2);
            }

            /* build Method(MEMORY_SLOT_NOTIFY_METHOD, 2) {
             *     If (LEqual(Arg0, 0x00)) {Notify(MP00, Arg1)} ...
             */
            build_append_notify_method(sb_scope,
                                       stringify(MEMORY_SLOT_NOTIFY_METHOD),
                                       "MP%0.02X", nr_mem);
        }

        {
            AcpiBuildPciBusHotplugState hotplug_state;
            Object *pci_host;
            PCIBus *bus = NULL;
            bool ambiguous;

            pci_host = object_resolve_path_type("", TYPE_PCI_HOST_BRIDGE, &ambiguous);
            if (!ambiguous && pci_host) {
                bus = PCI_HOST_BRIDGE(pci_host)->bus;
            }

            build_pci_bus_state_init(&hotplug_state, NULL, pm->pcihp_bridge_en);

            if (bus) {
                /* Scan all PCI buses. Generate tables to support hotplug. */
                pci_for_each_bus_depth_first(bus, build_pci_bus_begin,
                                             build_pci_bus_end, &hotplug_state);
            }

            build_append_array(sb_scope, hotplug_state.device_table);
            build_pci_bus_state_cleanup(&hotplug_state);
        }

        build_package(sb_scope, op, 3);
        build_append_array(table_data, sb_scope);
        build_free_array(sb_scope);
    }

    build_header(linker, table_data,
                 (void *)(table_data->data + ssdt_start),
                 "SSDT", table_data->len - ssdt_start, 1);
}

static void
build_hpet(GArray *table_data, GArray *linker)
{
    Acpi20Hpet *hpet;

    hpet = acpi_data_push(table_data, sizeof(*hpet));
    /* Note timer_block_id value must be kept in sync with value advertised by
     * emulated hpet
     */
    hpet->timer_block_id = cpu_to_le32(0x8086a201);
    hpet->addr.address = cpu_to_le64(HPET_BASE);
    build_header(linker, table_data,
                 (void *)hpet, "HPET", sizeof(*hpet), 1);
}

static void
build_tpm_tcpa(GArray *table_data, GArray *linker, GArray *tcpalog)
{
    Acpi20Tcpa *tcpa = acpi_data_push(table_data, sizeof *tcpa);
    uint64_t log_area_start_address = acpi_data_len(tcpalog);

    tcpa->platform_class = cpu_to_le16(TPM_TCPA_ACPI_CLASS_CLIENT);
    tcpa->log_area_minimum_length = cpu_to_le32(TPM_LOG_AREA_MINIMUM_SIZE);
    tcpa->log_area_start_address = cpu_to_le64(log_area_start_address);

    bios_linker_loader_alloc(linker, ACPI_BUILD_TPMLOG_FILE, 1,
                             false /* high memory */);

    /* log area start address to be filled by Guest linker */
    bios_linker_loader_add_pointer(linker, ACPI_BUILD_TABLE_FILE,
                                   ACPI_BUILD_TPMLOG_FILE,
                                   table_data, &tcpa->log_area_start_address,
                                   sizeof(tcpa->log_area_start_address));

    build_header(linker, table_data,
                 (void *)tcpa, "TCPA", sizeof(*tcpa), 2);

    acpi_data_push(tcpalog, TPM_LOG_AREA_MINIMUM_SIZE);
}

static void
build_tpm_ssdt(GArray *table_data, GArray *linker)
{
    void *tpm_ptr;

    tpm_ptr = acpi_data_push(table_data, sizeof(ssdt_tpm_aml));
    memcpy(tpm_ptr, ssdt_tpm_aml, sizeof(ssdt_tpm_aml));
}

typedef enum {
    MEM_AFFINITY_NOFLAGS      = 0,
    MEM_AFFINITY_ENABLED      = (1 << 0),
    MEM_AFFINITY_HOTPLUGGABLE = (1 << 1),
    MEM_AFFINITY_NON_VOLATILE = (1 << 2),
} MemoryAffinityFlags;

static void
acpi_build_srat_memory(AcpiSratMemoryAffinity *numamem, uint64_t base,
                       uint64_t len, int node, MemoryAffinityFlags flags)
{
    numamem->type = ACPI_SRAT_MEMORY;
    numamem->length = sizeof(*numamem);
    memset(numamem->proximity, 0, 4);
    numamem->proximity[0] = node;
    numamem->flags = cpu_to_le32(flags);
    numamem->base_addr = cpu_to_le64(base);
    numamem->range_length = cpu_to_le64(len);
}

static void
build_srat(GArray *table_data, GArray *linker, PcGuestInfo *guest_info)
{
    AcpiSystemResourceAffinityTable *srat;
    AcpiSratProcessorAffinity *core;
    AcpiSratMemoryAffinity *numamem;

    int i;
    uint64_t curnode;
    int srat_start, numa_start, slots;
    uint64_t mem_len, mem_base, next_base;
    PCMachineState *pcms = PC_MACHINE(qdev_get_machine());
    ram_addr_t hotplugabble_address_space_size =
        object_property_get_int(OBJECT(pcms), PC_MACHINE_MEMHP_REGION_SIZE,
                                NULL);

    srat_start = table_data->len;

    srat = acpi_data_push(table_data, sizeof *srat);
    srat->reserved1 = cpu_to_le32(1);
    core = (void *)(srat + 1);

    for (i = 0; i < guest_info->apic_id_limit; ++i) {
        core = acpi_data_push(table_data, sizeof *core);
        core->type = ACPI_SRAT_PROCESSOR;
        core->length = sizeof(*core);
        core->local_apic_id = i;
        curnode = guest_info->node_cpu[i];
        core->proximity_lo = curnode;
        memset(core->proximity_hi, 0, 3);
        core->local_sapic_eid = 0;
        core->flags = cpu_to_le32(1);
    }


    /* the memory map is a bit tricky, it contains at least one hole
     * from 640k-1M and possibly another one from 3.5G-4G.
     */
    next_base = 0;
    numa_start = table_data->len;

    numamem = acpi_data_push(table_data, sizeof *numamem);
    acpi_build_srat_memory(numamem, 0, 640*1024, 0, MEM_AFFINITY_ENABLED);
    next_base = 1024 * 1024;
    for (i = 1; i < guest_info->numa_nodes + 1; ++i) {
        mem_base = next_base;
        mem_len = guest_info->node_mem[i - 1];
        if (i == 1) {
            mem_len -= 1024 * 1024;
        }
        next_base = mem_base + mem_len;

        /* Cut out the ACPI_PCI hole */
        if (mem_base <= guest_info->ram_size_below_4g &&
            next_base > guest_info->ram_size_below_4g) {
            mem_len -= next_base - guest_info->ram_size_below_4g;
            if (mem_len > 0) {
                numamem = acpi_data_push(table_data, sizeof *numamem);
                acpi_build_srat_memory(numamem, mem_base, mem_len, i - 1,
                                       MEM_AFFINITY_ENABLED);
            }
            mem_base = 1ULL << 32;
            mem_len = next_base - guest_info->ram_size_below_4g;
            next_base += (1ULL << 32) - guest_info->ram_size_below_4g;
        }
        numamem = acpi_data_push(table_data, sizeof *numamem);
        acpi_build_srat_memory(numamem, mem_base, mem_len, i - 1,
                               MEM_AFFINITY_ENABLED);
    }
    slots = (table_data->len - numa_start) / sizeof *numamem;
    for (; slots < guest_info->numa_nodes + 2; slots++) {
        numamem = acpi_data_push(table_data, sizeof *numamem);
        acpi_build_srat_memory(numamem, 0, 0, 0, MEM_AFFINITY_NOFLAGS);
    }

    /*
     * Entry is required for Windows to enable memory hotplug in OS.
     * Memory devices may override proximity set by this entry,
     * providing _PXM method if necessary.
     */
    if (hotplugabble_address_space_size) {
        numamem = acpi_data_push(table_data, sizeof *numamem);
        acpi_build_srat_memory(numamem, pcms->hotplug_memory_base,
                               hotplugabble_address_space_size, 0,
                               MEM_AFFINITY_HOTPLUGGABLE |
                               MEM_AFFINITY_ENABLED);
    }

    build_header(linker, table_data,
                 (void *)(table_data->data + srat_start),
                 "SRAT",
                 table_data->len - srat_start, 1);
}

static void
build_mcfg_q35(GArray *table_data, GArray *linker, AcpiMcfgInfo *info)
{
    AcpiTableMcfg *mcfg;
    const char *sig;
    int len = sizeof(*mcfg) + 1 * sizeof(mcfg->allocation[0]);

    mcfg = acpi_data_push(table_data, len);
    mcfg->allocation[0].address = cpu_to_le64(info->mcfg_base);
    /* Only a single allocation so no need to play with segments */
    mcfg->allocation[0].pci_segment = cpu_to_le16(0);
    mcfg->allocation[0].start_bus_number = 0;
    mcfg->allocation[0].end_bus_number = PCIE_MMCFG_BUS(info->mcfg_size - 1);

    /* MCFG is used for ECAM which can be enabled or disabled by guest.
     * To avoid table size changes (which create migration issues),
     * always create the table even if there are no allocations,
     * but set the signature to a reserved value in this case.
     * ACPI spec requires OSPMs to ignore such tables.
     */
    if (info->mcfg_base == PCIE_BASE_ADDR_UNMAPPED) {
        /* Reserved signature: ignored by OSPM */
        sig = "QEMU";
    } else {
        sig = "MCFG";
    }
    build_header(linker, table_data, (void *)mcfg, sig, len, 1);
}

static void
build_dmar_q35(GArray *table_data, GArray *linker)
{
    int dmar_start = table_data->len;

    AcpiTableDmar *dmar;
    AcpiDmarHardwareUnit *drhd;

    dmar = acpi_data_push(table_data, sizeof(*dmar));
    dmar->host_address_width = VTD_HOST_ADDRESS_WIDTH - 1;
    dmar->flags = 0;    /* No intr_remap for now */

    /* DMAR Remapping Hardware Unit Definition structure */
    drhd = acpi_data_push(table_data, sizeof(*drhd));
    drhd->type = cpu_to_le16(ACPI_DMAR_TYPE_HARDWARE_UNIT);
    drhd->length = cpu_to_le16(sizeof(*drhd));   /* No device scope now */
    drhd->flags = ACPI_DMAR_INCLUDE_PCI_ALL;
    drhd->pci_segment = cpu_to_le16(0);
    drhd->address = cpu_to_le64(Q35_HOST_BRIDGE_IOMMU_ADDR);

    build_header(linker, table_data, (void *)(table_data->data + dmar_start),
                 "DMAR", table_data->len - dmar_start, 1);
}

static void
build_dsdt(GArray *table_data, GArray *linker, AcpiMiscInfo *misc)
{
    AcpiTableHeader *dsdt;

    assert(misc->dsdt_code && misc->dsdt_size);

    dsdt = acpi_data_push(table_data, misc->dsdt_size);
    memcpy(dsdt, misc->dsdt_code, misc->dsdt_size);

    memset(dsdt, 0, sizeof *dsdt);
    build_header(linker, table_data, dsdt, "DSDT",
                 misc->dsdt_size, 1);
}

/* Build final rsdt table */
static void
build_rsdt(GArray *table_data, GArray *linker, GArray *table_offsets)
{
    AcpiRsdtDescriptorRev1 *rsdt;
    size_t rsdt_len;
    int i;

    rsdt_len = sizeof(*rsdt) + sizeof(uint32_t) * table_offsets->len;
    rsdt = acpi_data_push(table_data, rsdt_len);
    memcpy(rsdt->table_offset_entry, table_offsets->data,
           sizeof(uint32_t) * table_offsets->len);
    for (i = 0; i < table_offsets->len; ++i) {
        /* rsdt->table_offset_entry to be filled by Guest linker */
        bios_linker_loader_add_pointer(linker,
                                       ACPI_BUILD_TABLE_FILE,
                                       ACPI_BUILD_TABLE_FILE,
                                       table_data, &rsdt->table_offset_entry[i],
                                       sizeof(uint32_t));
    }
    build_header(linker, table_data,
                 (void *)rsdt, "RSDT", rsdt_len, 1);
}

static GArray *
build_rsdp(GArray *rsdp_table, GArray *linker, unsigned rsdt)
{
    AcpiRsdpDescriptor *rsdp = acpi_data_push(rsdp_table, sizeof *rsdp);

    bios_linker_loader_alloc(linker, ACPI_BUILD_RSDP_FILE, 16,
                             true /* fseg memory */);

    memcpy(&rsdp->signature, "RSD PTR ", 8);
    memcpy(rsdp->oem_id, ACPI_BUILD_APPNAME6, 6);
    rsdp->rsdt_physical_address = cpu_to_le32(rsdt);
    /* Address to be filled by Guest linker */
    bios_linker_loader_add_pointer(linker, ACPI_BUILD_RSDP_FILE,
                                   ACPI_BUILD_TABLE_FILE,
                                   rsdp_table, &rsdp->rsdt_physical_address,
                                   sizeof rsdp->rsdt_physical_address);
    rsdp->checksum = 0;
    /* Checksum to be filled by Guest linker */
    bios_linker_loader_add_checksum(linker, ACPI_BUILD_RSDP_FILE,
                                    rsdp, rsdp, sizeof *rsdp, &rsdp->checksum);

    return rsdp_table;
}

typedef
struct AcpiBuildTables {
    GArray *table_data;
    GArray *rsdp;
    GArray *tcpalog;
    GArray *linker;
} AcpiBuildTables;

static inline void acpi_build_tables_init(AcpiBuildTables *tables)
{
    tables->rsdp = g_array_new(false, true /* clear */, 1);
    tables->table_data = g_array_new(false, true /* clear */, 1);
    tables->tcpalog = g_array_new(false, true /* clear */, 1);
    tables->linker = bios_linker_loader_init();
}

static inline void acpi_build_tables_cleanup(AcpiBuildTables *tables, bool mfre)
{
    void *linker_data = bios_linker_loader_cleanup(tables->linker);
    g_free(linker_data);
    g_array_free(tables->rsdp, mfre);
    g_array_free(tables->table_data, true);
    g_array_free(tables->tcpalog, mfre);
}

typedef
struct AcpiBuildState {
    /* Copy of table in RAM (for patching). */
    ram_addr_t table_ram;
    uint32_t table_size;
    /* Is table patched? */
    uint8_t patched;
    PcGuestInfo *guest_info;
} AcpiBuildState;

static bool acpi_get_mcfg(AcpiMcfgInfo *mcfg)
{
    Object *pci_host;
    QObject *o;
    bool ambiguous;

    pci_host = object_resolve_path_type("", TYPE_PCI_HOST_BRIDGE, &ambiguous);
    g_assert(!ambiguous);
    g_assert(pci_host);

    o = object_property_get_qobject(pci_host, PCIE_HOST_MCFG_BASE, NULL);
    if (!o) {
        return false;
    }
    mcfg->mcfg_base = qint_get_int(qobject_to_qint(o));
    qobject_decref(o);

    o = object_property_get_qobject(pci_host, PCIE_HOST_MCFG_SIZE, NULL);
    assert(o);
    mcfg->mcfg_size = qint_get_int(qobject_to_qint(o));
    qobject_decref(o);
    return true;
}

static bool acpi_has_iommu(void)
{
    bool ambiguous;
    Object *intel_iommu;

    intel_iommu = object_resolve_path_type("", TYPE_INTEL_IOMMU_DEVICE,
                                           &ambiguous);
    return intel_iommu && !ambiguous;
}

static
void acpi_build(PcGuestInfo *guest_info, AcpiBuildTables *tables)
{
    GArray *table_offsets;
    unsigned facs, ssdt, dsdt, rsdt;
    AcpiCpuInfo cpu;
    AcpiPmInfo pm;
    AcpiMiscInfo misc;
    AcpiMcfgInfo mcfg;
    PcPciInfo pci;
    uint8_t *u;
    size_t aml_len = 0;

    acpi_get_cpu_info(&cpu);
    acpi_get_pm_info(&pm);
    acpi_get_dsdt(&misc);
    acpi_get_misc_info(&misc);
    acpi_get_pci_info(&pci);

    table_offsets = g_array_new(false, true /* clear */,
                                        sizeof(uint32_t));
    ACPI_BUILD_DPRINTF("init ACPI tables\n");

    bios_linker_loader_alloc(tables->linker, ACPI_BUILD_TABLE_FILE,
                             64 /* Ensure FACS is aligned */,
                             false /* high memory */);

    /*
     * FACS is pointed to by FADT.
     * We place it first since it's the only table that has alignment
     * requirements.
     */
    facs = tables->table_data->len;
    build_facs(tables->table_data, tables->linker, guest_info);

    /* DSDT is pointed to by FADT */
    dsdt = tables->table_data->len;
    build_dsdt(tables->table_data, tables->linker, &misc);

    /* Count the size of the DSDT and SSDT, we will need it for legacy
     * sizing of ACPI tables.
     */
    aml_len += tables->table_data->len - dsdt;

    /* ACPI tables pointed to by RSDT */
    acpi_add_table(table_offsets, tables->table_data);
    build_fadt(tables->table_data, tables->linker, &pm, facs, dsdt);

    ssdt = tables->table_data->len;
    acpi_add_table(table_offsets, tables->table_data);
    build_ssdt(tables->table_data, tables->linker, &cpu, &pm, &misc, &pci,
               guest_info);
    aml_len += tables->table_data->len - ssdt;

    acpi_add_table(table_offsets, tables->table_data);
    build_madt(tables->table_data, tables->linker, &cpu, guest_info);

    if (misc.has_hpet) {
        acpi_add_table(table_offsets, tables->table_data);
        build_hpet(tables->table_data, tables->linker);
    }
    if (misc.has_tpm) {
        acpi_add_table(table_offsets, tables->table_data);
        build_tpm_tcpa(tables->table_data, tables->linker, tables->tcpalog);

        acpi_add_table(table_offsets, tables->table_data);
        build_tpm_ssdt(tables->table_data, tables->linker);
    }
    if (guest_info->numa_nodes) {
        acpi_add_table(table_offsets, tables->table_data);
        build_srat(tables->table_data, tables->linker, guest_info);
    }
    if (acpi_get_mcfg(&mcfg)) {
        acpi_add_table(table_offsets, tables->table_data);
        build_mcfg_q35(tables->table_data, tables->linker, &mcfg);
    }
    if (acpi_has_iommu()) {
        acpi_add_table(table_offsets, tables->table_data);
        build_dmar_q35(tables->table_data, tables->linker);
    }

    /* Add tables supplied by user (if any) */
    for (u = acpi_table_first(); u; u = acpi_table_next(u)) {
        unsigned len = acpi_table_len(u);

        acpi_add_table(table_offsets, tables->table_data);
        g_array_append_vals(tables->table_data, u, len);
    }

    /* RSDT is pointed to by RSDP */
    rsdt = tables->table_data->len;
    build_rsdt(tables->table_data, tables->linker, table_offsets);

    /* RSDP is in FSEG memory, so allocate it separately */
    build_rsdp(tables->rsdp, tables->linker, rsdt);

    /* We'll expose it all to Guest so we want to reduce
     * chance of size changes.
     * RSDP is small so it's easy to keep it immutable, no need to
     * bother with alignment.
     *
     * We used to align the tables to 4k, but of course this would
     * too simple to be enough.  4k turned out to be too small an
     * alignment very soon, and in fact it is almost impossible to
     * keep the table size stable for all (max_cpus, max_memory_slots)
     * combinations.  So the table size is always 64k for pc-i440fx-2.1
     * and we give an error if the table grows beyond that limit.
     *
     * We still have the problem of migrating from "-M pc-i440fx-2.0".  For
     * that, we exploit the fact that QEMU 2.1 generates _smaller_ tables
     * than 2.0 and we can always pad the smaller tables with zeros.  We can
     * then use the exact size of the 2.0 tables.
     *
     * All this is for PIIX4, since QEMU 2.0 didn't support Q35 migration.
     */
    if (guest_info->legacy_acpi_table_size) {
        /* Subtracting aml_len gives the size of fixed tables.  Then add the
         * size of the PIIX4 DSDT/SSDT in QEMU 2.0.
         */
        int legacy_aml_len =
            guest_info->legacy_acpi_table_size +
            ACPI_BUILD_LEGACY_CPU_AML_SIZE * max_cpus;
        int legacy_table_size =
            ROUND_UP(tables->table_data->len - aml_len + legacy_aml_len,
                     ACPI_BUILD_ALIGN_SIZE);
        if (tables->table_data->len > legacy_table_size) {
            /* Should happen only with PCI bridges and -M pc-i440fx-2.0.  */
            error_report("Warning: migration may not work.");
        }
        g_array_set_size(tables->table_data, legacy_table_size);
    } else {
        /* Make sure we have a buffer in case we need to resize the tables. */
        if (tables->table_data->len > ACPI_BUILD_TABLE_SIZE / 2) {
            /* As of QEMU 2.1, this fires with 160 VCPUs and 255 memory slots.  */
            error_report("Warning: ACPI tables are larger than 64k.");
            error_report("Warning: migration may not work.");
            error_report("Warning: please remove CPUs, NUMA nodes, "
                         "memory slots or PCI bridges.");
        }
        acpi_align_size(tables->table_data, ACPI_BUILD_TABLE_SIZE);
    }

    acpi_align_size(tables->linker, ACPI_BUILD_ALIGN_SIZE);

    /* Cleanup memory that's no longer used. */
    g_array_free(table_offsets, true);
}

static void acpi_build_update(void *build_opaque, uint32_t offset)
{
    AcpiBuildState *build_state = build_opaque;
    AcpiBuildTables tables;

    /* No state to update or already patched? Nothing to do. */
    if (!build_state || build_state->patched) {
        return;
    }
    build_state->patched = 1;

    acpi_build_tables_init(&tables);

    acpi_build(build_state->guest_info, &tables);

    assert(acpi_data_len(tables.table_data) == build_state->table_size);

    /* Make sure RAM size is correct - in case it got changed by migration */
    qemu_ram_resize(build_state->table_ram, build_state->table_size,
                    &error_abort);

    memcpy(qemu_get_ram_ptr(build_state->table_ram), tables.table_data->data,
           build_state->table_size);

    cpu_physical_memory_set_dirty_range_nocode(build_state->table_ram,
                                               build_state->table_size);

    acpi_build_tables_cleanup(&tables, true);
}

static void acpi_build_reset(void *build_opaque)
{
    AcpiBuildState *build_state = build_opaque;
    build_state->patched = 0;
}

static ram_addr_t acpi_add_rom_blob(AcpiBuildState *build_state, GArray *blob,
                               const char *name, uint64_t max_size)
{
    return rom_add_blob(name, blob->data, acpi_data_len(blob), max_size, -1,
                        name, acpi_build_update, build_state);
}

static const VMStateDescription vmstate_acpi_build = {
    .name = "acpi_build",
    .version_id = 1,
    .minimum_version_id = 1,
    .fields = (VMStateField[]) {
        VMSTATE_UINT8(patched, AcpiBuildState),
        VMSTATE_END_OF_LIST()
    },
};

void acpi_setup(PcGuestInfo *guest_info)
{
    AcpiBuildTables tables;
    AcpiBuildState *build_state;

    if (!guest_info->fw_cfg) {
        ACPI_BUILD_DPRINTF("No fw cfg. Bailing out.\n");
        return;
    }

    if (!guest_info->has_acpi_build) {
        ACPI_BUILD_DPRINTF("ACPI build disabled. Bailing out.\n");
        return;
    }

    if (!acpi_enabled) {
        ACPI_BUILD_DPRINTF("ACPI disabled. Bailing out.\n");
        return;
    }

    build_state = g_malloc0(sizeof *build_state);

    build_state->guest_info = guest_info;

    acpi_set_pci_info();

    acpi_build_tables_init(&tables);
    acpi_build(build_state->guest_info, &tables);

    /* Now expose it all to Guest */
    build_state->table_ram = acpi_add_rom_blob(build_state, tables.table_data,
                                               ACPI_BUILD_TABLE_FILE,
                                               ACPI_BUILD_TABLE_MAX_SIZE);
    assert(build_state->table_ram != RAM_ADDR_MAX);
    build_state->table_size = acpi_data_len(tables.table_data);

    acpi_add_rom_blob(NULL, tables.linker, "etc/table-loader", 0);

    fw_cfg_add_file(guest_info->fw_cfg, ACPI_BUILD_TPMLOG_FILE,
                    tables.tcpalog->data, acpi_data_len(tables.tcpalog));

    /*
     * RSDP is small so it's easy to keep it immutable, no need to
     * bother with ROM blobs.
     */
    fw_cfg_add_file(guest_info->fw_cfg, ACPI_BUILD_RSDP_FILE,
                    tables.rsdp->data, acpi_data_len(tables.rsdp));

    qemu_register_reset(acpi_build_reset, build_state);
    acpi_build_reset(build_state);
    vmstate_register(NULL, 0, &vmstate_acpi_build, build_state);

    /* Cleanup tables but don't free the memory: we track it
     * in build_state.
     */
    acpi_build_tables_cleanup(&tables, false);
}