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path: root/roms/seabios/src/acpi.c
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// Support for generating ACPI tables (on emulators)
//
// Copyright (C) 2008-2010  Kevin O'Connor <kevin@koconnor.net>
// Copyright (C) 2006 Fabrice Bellard
//
// This file may be distributed under the terms of the GNU LGPLv3 license.

#include "acpi.h" // struct rsdp_descriptor
#include "util.h" // memcpy
#include "byteorder.h" // cpu_to_le16
#include "pci.h" // pci_find_init_device
#include "pci_ids.h" // PCI_VENDOR_ID_INTEL
#include "pci_regs.h" // PCI_INTERRUPT_LINE
#include "ioport.h" // inl
#include "paravirt.h" // qemu_cfg_irq0_override

/****************************************************/
/* ACPI tables init */

/* Table structure from Linux kernel (the ACPI tables are under the
   BSD license) */

struct acpi_table_header         /* ACPI common table header */
{
    ACPI_TABLE_HEADER_DEF
} PACKED;

/*
 * ACPI 1.0 Root System Description Table (RSDT)
 */
#define RSDT_SIGNATURE 0x54445352 // RSDT
struct rsdt_descriptor_rev1
{
    ACPI_TABLE_HEADER_DEF       /* ACPI common table header */
    u32 table_offset_entry[0];  /* Array of pointers to other */
    /* ACPI tables */
} PACKED;

/*
 * ACPI 1.0 Firmware ACPI Control Structure (FACS)
 */
#define FACS_SIGNATURE 0x53434146 // FACS
struct facs_descriptor_rev1
{
    u32 signature;           /* ACPI Signature */
    u32 length;                 /* Length of structure, in bytes */
    u32 hardware_signature;     /* Hardware configuration signature */
    u32 firmware_waking_vector; /* ACPI OS waking vector */
    u32 global_lock;            /* Global Lock */
    u32 S4bios_f        : 1;    /* Indicates if S4BIOS support is present */
    u32 reserved1       : 31;   /* Must be 0 */
    u8  resverved3 [40];        /* Reserved - must be zero */
} PACKED;


/*
 * Differentiated System Description Table (DSDT)
 */
#define DSDT_SIGNATURE 0x54445344 // DSDT

/*
 * MADT values and structures
 */

/* Values for MADT PCATCompat */

#define DUAL_PIC                0
#define MULTIPLE_APIC           1


/* Master MADT */

#define APIC_SIGNATURE 0x43495041 // APIC
struct multiple_apic_table
{
    ACPI_TABLE_HEADER_DEF     /* ACPI common table header */
    u32 local_apic_address;     /* Physical address of local APIC */
#if 0
    u32 PCATcompat      : 1;    /* A one indicates system also has dual 8259s */
    u32 reserved1       : 31;
#else
    u32 flags;
#endif
} PACKED;


/* Values for Type in APIC sub-headers */

#define APIC_PROCESSOR          0
#define APIC_IO                 1
#define APIC_XRUPT_OVERRIDE     2
#define APIC_NMI                3
#define APIC_LOCAL_NMI          4
#define APIC_ADDRESS_OVERRIDE   5
#define APIC_IO_SAPIC           6
#define APIC_LOCAL_SAPIC        7
#define APIC_XRUPT_SOURCE       8
#define APIC_RESERVED           9           /* 9 and greater are reserved */

/*
 * MADT sub-structures (Follow MULTIPLE_APIC_DESCRIPTION_TABLE)
 */
#define ACPI_SUB_HEADER_DEF   /* Common ACPI sub-structure header */\
    u8  type;                               \
    u8  length;

/* Sub-structures for MADT */

struct madt_processor_apic
{
    ACPI_SUB_HEADER_DEF
    u8  processor_id;           /* ACPI processor id */
    u8  local_apic_id;          /* Processor's local APIC id */
#if 0
    u32 processor_enabled: 1;   /* Processor is usable if set */
    u32 reserved2       : 31;   /* Reserved, must be zero */
#else
    u32 flags;
#endif
} PACKED;

struct madt_io_apic
{
    ACPI_SUB_HEADER_DEF
    u8  io_apic_id;             /* I/O APIC ID */
    u8  reserved;               /* Reserved - must be zero */
    u32 address;                /* APIC physical address */
    u32 interrupt;              /* Global system interrupt where INTI
                                 * lines start */
} PACKED;

/* IRQs 5,9,10,11 */
#define PCI_ISA_IRQ_MASK    0x0e20

struct madt_intsrcovr {
    ACPI_SUB_HEADER_DEF
    u8  bus;
    u8  source;
    u32 gsi;
    u16 flags;
} PACKED;

struct madt_local_nmi {
    ACPI_SUB_HEADER_DEF
    u8  processor_id;           /* ACPI processor id */
    u16 flags;                  /* MPS INTI flags */
    u8  lint;                   /* Local APIC LINT# */
} PACKED;


/*
 * ACPI 2.0 Generic Address Space definition.
 */
struct acpi_20_generic_address {
    u8  address_space_id;
    u8  register_bit_width;
    u8  register_bit_offset;
    u8  reserved;
    u64 address;
} PACKED;

/*
 * HPET Description Table
 */
struct acpi_20_hpet {
    ACPI_TABLE_HEADER_DEF                    /* ACPI common table header */
    u32           timer_block_id;
    struct acpi_20_generic_address addr;
    u8            hpet_number;
    u16           min_tick;
    u8            page_protect;
} PACKED;

#define HPET_ID         0x000
#define HPET_PERIOD     0x004

/*
 * SRAT (NUMA topology description) table
 */

#define SRAT_PROCESSOR          0
#define SRAT_MEMORY             1

struct system_resource_affinity_table
{
    ACPI_TABLE_HEADER_DEF
    u32    reserved1;
    u32    reserved2[2];
} PACKED;

struct srat_processor_affinity
{
    ACPI_SUB_HEADER_DEF
    u8     proximity_lo;
    u8     local_apic_id;
    u32    flags;
    u8     local_sapic_eid;
    u8     proximity_hi[3];
    u32    reserved;
} PACKED;

struct srat_memory_affinity
{
    ACPI_SUB_HEADER_DEF
    u8     proximity[4];
    u16    reserved1;
    u32    base_addr_low,base_addr_high;
    u32    length_low,length_high;
    u32    reserved2;
    u32    flags;
    u32    reserved3[2];
} PACKED;

#include "acpi-dsdt.hex"

static void
build_header(struct acpi_table_header *h, u32 sig, int len, u8 rev)
{
    h->signature = sig;
    h->length = cpu_to_le32(len);
    h->revision = rev;
    memcpy(h->oem_id, CONFIG_APPNAME6, 6);
    memcpy(h->oem_table_id, CONFIG_APPNAME4, 4);
    memcpy(h->oem_table_id + 4, (void*)&sig, 4);
    h->oem_revision = cpu_to_le32(1);
    memcpy(h->asl_compiler_id, CONFIG_APPNAME4, 4);
    h->asl_compiler_revision = cpu_to_le32(1);
    h->checksum -= checksum(h, len);
}

#define PIIX4_ACPI_ENABLE       0xf1
#define PIIX4_ACPI_DISABLE      0xf0
#define PIIX4_GPE0_BLK          0xafe0
#define PIIX4_GPE0_BLK_LEN      4

static void piix4_fadt_init(struct pci_device *pci, void *arg)
{
    struct fadt_descriptor_rev1 *fadt = arg;
    fadt->acpi_enable = PIIX4_ACPI_ENABLE;
    fadt->acpi_disable = PIIX4_ACPI_DISABLE;
    fadt->gpe0_blk = cpu_to_le32(PIIX4_GPE0_BLK);
    fadt->gpe0_blk_len = PIIX4_GPE0_BLK_LEN;
}

static const struct pci_device_id fadt_init_tbl[] = {
    /* PIIX4 Power Management device (for ACPI) */
    PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82371AB_3,
               piix4_fadt_init),

    PCI_DEVICE_END
};

static void fill_dsdt(struct fadt_descriptor_rev1 *fadt, void *dsdt)
{
    if (fadt->dsdt) {
        free((void *)le32_to_cpu(fadt->dsdt));
    }
    fadt->dsdt = cpu_to_le32((u32)dsdt);
    fadt->checksum -= checksum(fadt, sizeof(*fadt));
    dprintf(1, "ACPI DSDT=%p\n", dsdt);
}

static void *
build_fadt(struct pci_device *pci)
{
    struct fadt_descriptor_rev1 *fadt = malloc_high(sizeof(*fadt));
    struct facs_descriptor_rev1 *facs = memalign_high(64, sizeof(*facs));

    if (!fadt || !facs) {
        warn_noalloc();
        return NULL;
    }

    /* FACS */
    memset(facs, 0, sizeof(*facs));
    facs->signature = FACS_SIGNATURE;
    facs->length = cpu_to_le32(sizeof(*facs));

    /* FADT */
    memset(fadt, 0, sizeof(*fadt));
    fadt->firmware_ctrl = cpu_to_le32((u32)facs);
    fadt->dsdt = 0;  /* dsdt will be filled later in acpi_bios_init()
                        by fill_dsdt() */
    fadt->model = 1;
    fadt->reserved1 = 0;
    int pm_sci_int = pci_config_readb(pci->bdf, PCI_INTERRUPT_LINE);
    fadt->sci_int = cpu_to_le16(pm_sci_int);
    fadt->smi_cmd = cpu_to_le32(PORT_SMI_CMD);
    fadt->pm1a_evt_blk = cpu_to_le32(PORT_ACPI_PM_BASE);
    fadt->pm1a_cnt_blk = cpu_to_le32(PORT_ACPI_PM_BASE + 0x04);
    fadt->pm_tmr_blk = cpu_to_le32(PORT_ACPI_PM_BASE + 0x08);
    fadt->pm1_evt_len = 4;
    fadt->pm1_cnt_len = 2;
    fadt->pm_tmr_len = 4;
    fadt->plvl2_lat = cpu_to_le16(0xfff); // C2 state not supported
    fadt->plvl3_lat = cpu_to_le16(0xfff); // C3 state not supported
    pci_init_device(fadt_init_tbl, pci, fadt);
    /* WBINVD + PROC_C1 + SLP_BUTTON + RTC_S4 + USE_PLATFORM_CLOCK */
    fadt->flags = cpu_to_le32((1 << 0) | (1 << 2) | (1 << 5) | (1 << 7) |
                              (1 << 15));

    build_header((void*)fadt, FACP_SIGNATURE, sizeof(*fadt), 1);

    return fadt;
}

static void*
build_madt(void)
{
    int madt_size = (sizeof(struct multiple_apic_table)
                     + sizeof(struct madt_processor_apic) * MaxCountCPUs
                     + sizeof(struct madt_io_apic)
                     + sizeof(struct madt_intsrcovr) * 16
                     + sizeof(struct madt_local_nmi));

    struct multiple_apic_table *madt = malloc_high(madt_size);
    if (!madt) {
        warn_noalloc();
        return NULL;
    }
    memset(madt, 0, madt_size);
    madt->local_apic_address = cpu_to_le32(BUILD_APIC_ADDR);
    madt->flags = cpu_to_le32(1);
    struct madt_processor_apic *apic = (void*)&madt[1];
    int i;
    for (i=0; i<MaxCountCPUs; i++) {
        apic->type = APIC_PROCESSOR;
        apic->length = sizeof(*apic);
        apic->processor_id = i;
        apic->local_apic_id = i;
        if (apic_id_is_present(apic->local_apic_id))
            apic->flags = cpu_to_le32(1);
        else
            apic->flags = cpu_to_le32(0);
        apic++;
    }
    struct madt_io_apic *io_apic = (void*)apic;
    io_apic->type = APIC_IO;
    io_apic->length = sizeof(*io_apic);
    io_apic->io_apic_id = BUILD_IOAPIC_ID;
    io_apic->address = cpu_to_le32(BUILD_IOAPIC_ADDR);
    io_apic->interrupt = cpu_to_le32(0);

    struct madt_intsrcovr *intsrcovr = (void*)&io_apic[1];
    if (qemu_cfg_irq0_override()) {
        memset(intsrcovr, 0, sizeof(*intsrcovr));
        intsrcovr->type   = APIC_XRUPT_OVERRIDE;
        intsrcovr->length = sizeof(*intsrcovr);
        intsrcovr->source = 0;
        intsrcovr->gsi    = 2;
        intsrcovr->flags  = 0; /* conforms to bus specifications */
        intsrcovr++;
    }
    for (i = 1; i < 16; i++) {
        if (!(PCI_ISA_IRQ_MASK & (1 << i)))
            /* No need for a INT source override structure. */
            continue;
        memset(intsrcovr, 0, sizeof(*intsrcovr));
        intsrcovr->type   = APIC_XRUPT_OVERRIDE;
        intsrcovr->length = sizeof(*intsrcovr);
        intsrcovr->source = i;
        intsrcovr->gsi    = i;
        intsrcovr->flags  = 0xd; /* active high, level triggered */
        intsrcovr++;
    }

    struct madt_local_nmi *local_nmi = (void*)intsrcovr;
    local_nmi->type         = APIC_LOCAL_NMI;
    local_nmi->length       = sizeof(*local_nmi);
    local_nmi->processor_id = 0xff; /* all processors */
    local_nmi->flags        = 0;
    local_nmi->lint         = 1; /* LINT1 */
    local_nmi++;

    build_header((void*)madt, APIC_SIGNATURE, (void*)local_nmi - (void*)madt, 1);
    return madt;
}

// Encode a hex value
static inline char getHex(u32 val) {
    val &= 0x0f;
    return (val <= 9) ? ('0' + val) : ('A' + val - 10);
}

// Encode a length in an SSDT.
static u8 *
encodeLen(u8 *ssdt_ptr, int length, int bytes)
{
    switch (bytes) {
    default:
    case 4: ssdt_ptr[3] = ((length >> 20) & 0xff);
    case 3: ssdt_ptr[2] = ((length >> 12) & 0xff);
    case 2: ssdt_ptr[1] = ((length >> 4) & 0xff);
            ssdt_ptr[0] = (((bytes-1) & 0x3) << 6) | (length & 0x0f);
            break;
    case 1: ssdt_ptr[0] = length & 0x3f;
    }
    return ssdt_ptr + bytes;
}

#include "ssdt-proc.hex"

/* 0x5B 0x83 ProcessorOp PkgLength NameString ProcID */
#define PROC_OFFSET_CPUHEX (*ssdt_proc_name - *ssdt_proc_start + 2)
#define PROC_OFFSET_CPUID1 (*ssdt_proc_name - *ssdt_proc_start + 4)
#define PROC_OFFSET_CPUID2 (*ssdt_proc_id - *ssdt_proc_start)
#define PROC_SIZEOF (*ssdt_proc_end - *ssdt_proc_start)
#define PROC_AML (ssdp_proc_aml + *ssdt_proc_start)

/* 0x5B 0x82 DeviceOp PkgLength NameString */
#define PCIHP_OFFSET_HEX (*ssdt_pcihp_name - *ssdt_pcihp_start + 1)
#define PCIHP_OFFSET_ID (*ssdt_pcihp_id - *ssdt_pcihp_start)
#define PCIHP_OFFSET_ADR (*ssdt_pcihp_adr - *ssdt_pcihp_start)
#define PCIHP_OFFSET_EJ0 (*ssdt_pcihp_ej0 - *ssdt_pcihp_start)
#define PCIHP_SIZEOF (*ssdt_pcihp_end - *ssdt_pcihp_start)
#define PCIHP_AML (ssdp_pcihp_aml + *ssdt_pcihp_start)
#define PCI_SLOTS 32

#define SSDT_SIGNATURE 0x54445353 // SSDT
#define SSDT_HEADER_LENGTH 36

#include "ssdt-susp.hex"
#include "ssdt-pcihp.hex"

#define PCI_RMV_BASE 0xae0c

static u8*
build_notify(u8 *ssdt_ptr, const char *name, int skip, int count,
             const char *target, int ofs)
{
    count -= skip;

    *(ssdt_ptr++) = 0x14; // MethodOp
    ssdt_ptr = encodeLen(ssdt_ptr, 2+5+(12*count), 2);
    memcpy(ssdt_ptr, name, 4);
    ssdt_ptr += 4;
    *(ssdt_ptr++) = 0x02; // MethodOp

    int i;
    for (i = skip; count-- > 0; i++) {
        *(ssdt_ptr++) = 0xA0; // IfOp
        ssdt_ptr = encodeLen(ssdt_ptr, 11, 1);
        *(ssdt_ptr++) = 0x93; // LEqualOp
        *(ssdt_ptr++) = 0x68; // Arg0Op
        *(ssdt_ptr++) = 0x0A; // BytePrefix
        *(ssdt_ptr++) = i;
        *(ssdt_ptr++) = 0x86; // NotifyOp
        memcpy(ssdt_ptr, target, 4);
        ssdt_ptr[ofs] = getHex(i >> 4);
        ssdt_ptr[ofs + 1] = getHex(i);
        ssdt_ptr += 4;
        *(ssdt_ptr++) = 0x69; // Arg1Op
    }
    return ssdt_ptr;
}

static void patch_pcihp(int slot, u8 *ssdt_ptr, u32 eject)
{
    ssdt_ptr[PCIHP_OFFSET_HEX] = getHex(slot >> 4);
    ssdt_ptr[PCIHP_OFFSET_HEX+1] = getHex(slot);
    ssdt_ptr[PCIHP_OFFSET_ID] = slot;
    ssdt_ptr[PCIHP_OFFSET_ADR + 2] = slot;

    /* Runtime patching of EJ0: to disable hotplug for a slot,
     * replace the method name: _EJ0 by EJ0_. */
    /* Sanity check */
    if (memcmp(ssdt_ptr + PCIHP_OFFSET_EJ0, "_EJ0", 4)) {
        warn_internalerror();
    }
    if (!eject) {
        memcpy(ssdt_ptr + PCIHP_OFFSET_EJ0, "EJ0_", 4);
    }
}

static void*
build_ssdt(void)
{
    int acpi_cpus = MaxCountCPUs > 0xff ? 0xff : MaxCountCPUs;
    int length = (sizeof(ssdp_susp_aml)                     // _S3_ / _S4_ / _S5_
                  + (1+3+4)                                 // Scope(_SB_)
                  + (acpi_cpus * PROC_SIZEOF)               // procs
                  + (1+2+5+(12*acpi_cpus))                  // NTFY
                  + (6+2+1+(1*acpi_cpus))                   // CPON
                  + 17                                      // BDAT
                  + (1+3+4)                                 // Scope(PCI0)
                  + ((PCI_SLOTS - 1) * PCIHP_SIZEOF)        // slots
                  + (1+2+5+(12*(PCI_SLOTS - 1))));          // PCNT
    u8 *ssdt = malloc_high(length);
    if (! ssdt) {
        warn_noalloc();
        return NULL;
    }
    u8 *ssdt_ptr = ssdt;

    // Copy header and encode fwcfg values in the S3_ / S4_ / S5_ packages
    int sys_state_size;
    char *sys_states = romfile_loadfile("etc/system-states", &sys_state_size);
    if (!sys_states || sys_state_size != 6)
        sys_states = (char[]){128, 0, 0, 129, 128, 128};

    memcpy(ssdt_ptr, ssdp_susp_aml, sizeof(ssdp_susp_aml));
    if (!(sys_states[3] & 128))
        ssdt_ptr[acpi_s3_name[0]] = 'X';
    if (!(sys_states[4] & 128))
        ssdt_ptr[acpi_s4_name[0]] = 'X';
    else
        ssdt_ptr[acpi_s4_pkg[0] + 1] = ssdt[acpi_s4_pkg[0] + 3] = sys_states[4] & 127;
    ssdt_ptr += sizeof(ssdp_susp_aml);

    // build Scope(_SB_) header
    *(ssdt_ptr++) = 0x10; // ScopeOp
    ssdt_ptr = encodeLen(ssdt_ptr, length - (ssdt_ptr - ssdt), 3);
    *(ssdt_ptr++) = '_';
    *(ssdt_ptr++) = 'S';
    *(ssdt_ptr++) = 'B';
    *(ssdt_ptr++) = '_';

    // build Processor object for each processor
    int i;
    for (i=0; i<acpi_cpus; i++) {
        memcpy(ssdt_ptr, PROC_AML, PROC_SIZEOF);
        ssdt_ptr[PROC_OFFSET_CPUHEX] = getHex(i >> 4);
        ssdt_ptr[PROC_OFFSET_CPUHEX+1] = getHex(i);
        ssdt_ptr[PROC_OFFSET_CPUID1] = i;
        ssdt_ptr[PROC_OFFSET_CPUID2] = i;
        ssdt_ptr += PROC_SIZEOF;
    }

    // build "Method(NTFY, 2) {If (LEqual(Arg0, 0x00)) {Notify(CP00, Arg1)} ...}"
    // Arg0 = Processor ID = APIC ID
    ssdt_ptr = build_notify(ssdt_ptr, "NTFY", 0, acpi_cpus, "CP00", 2);

    // build "Name(CPON, Package() { One, One, ..., Zero, Zero, ... })"
    *(ssdt_ptr++) = 0x08; // NameOp
    *(ssdt_ptr++) = 'C';
    *(ssdt_ptr++) = 'P';
    *(ssdt_ptr++) = 'O';
    *(ssdt_ptr++) = 'N';
    *(ssdt_ptr++) = 0x12; // PackageOp
    ssdt_ptr = encodeLen(ssdt_ptr, 2+1+(1*acpi_cpus), 2);
    *(ssdt_ptr++) = acpi_cpus;
    for (i=0; i<acpi_cpus; i++)
        *(ssdt_ptr++) = (apic_id_is_present(i)) ? 0x01 : 0x00;

    // store pci io windows: start, end, length
    // this way we don't have to do the math in the dsdt
    struct bfld *bfld = malloc_high(sizeof(struct bfld));
    bfld->p0s = pcimem_start;
    bfld->p0e = pcimem_end - 1;
    bfld->p0l = pcimem_end - pcimem_start;
    bfld->p1s = pcimem64_start;
    bfld->p1e = pcimem64_end - 1;
    bfld->p1l = pcimem64_end - pcimem64_start;

    // build "OperationRegion(BDAT, SystemMemory, 0x12345678, 0x87654321)"
    *(ssdt_ptr++) = 0x5B; // ExtOpPrefix
    *(ssdt_ptr++) = 0x80; // OpRegionOp
    *(ssdt_ptr++) = 'B';
    *(ssdt_ptr++) = 'D';
    *(ssdt_ptr++) = 'A';
    *(ssdt_ptr++) = 'T';
    *(ssdt_ptr++) = 0x00; // SystemMemory
    *(ssdt_ptr++) = 0x0C; // DWordPrefix
    *(u32*)ssdt_ptr = (u32)bfld;
    ssdt_ptr += 4;
    *(ssdt_ptr++) = 0x0C; // DWordPrefix
    *(u32*)ssdt_ptr = sizeof(struct bfld);
    ssdt_ptr += 4;

    // build Scope(PCI0) opcode
    *(ssdt_ptr++) = 0x10; // ScopeOp
    ssdt_ptr = encodeLen(ssdt_ptr, length - (ssdt_ptr - ssdt), 3);
    *(ssdt_ptr++) = 'P';
    *(ssdt_ptr++) = 'C';
    *(ssdt_ptr++) = 'I';
    *(ssdt_ptr++) = '0';

    // build Device object for each slot
    u32 rmvc_pcrm = inl(PCI_RMV_BASE);
    for (i=1; i<PCI_SLOTS; i++) {
        u32 eject = rmvc_pcrm & (0x1 << i);
        memcpy(ssdt_ptr, PCIHP_AML, PCIHP_SIZEOF);
        patch_pcihp(i, ssdt_ptr, eject != 0);
        ssdt_ptr += PCIHP_SIZEOF;
    }

    ssdt_ptr = build_notify(ssdt_ptr, "PCNT", 1, PCI_SLOTS, "S00_", 1);

    build_header((void*)ssdt, SSDT_SIGNATURE, ssdt_ptr - ssdt, 1);

    //hexdump(ssdt, ssdt_ptr - ssdt);

    return ssdt;
}

#define HPET_SIGNATURE 0x54455048 // HPET
static void*
build_hpet(void)
{
    struct acpi_20_hpet *hpet;
    const void *hpet_base = (void *)BUILD_HPET_ADDRESS;
    u32 hpet_vendor = readl(hpet_base + HPET_ID) >> 16;
    u32 hpet_period = readl(hpet_base + HPET_PERIOD);

    if (hpet_vendor == 0 || hpet_vendor == 0xffff ||
        hpet_period == 0 || hpet_period > 100000000)
        return NULL;

    hpet = malloc_high(sizeof(*hpet));
    if (!hpet) {
        warn_noalloc();
        return NULL;
    }

    memset(hpet, 0, 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_le32(BUILD_HPET_ADDRESS);
    build_header((void*)hpet, HPET_SIGNATURE, sizeof(*hpet), 1);

    return hpet;
}

static void
acpi_build_srat_memory(struct srat_memory_affinity *numamem,
                       u64 base, u64 len, int node, int enabled)
{
    numamem->type = SRAT_MEMORY;
    numamem->length = sizeof(*numamem);
    memset(numamem->proximity, 0 ,4);
    numamem->proximity[0] = node;
    numamem->flags = cpu_to_le32(!!enabled);
    numamem->base_addr_low = base & 0xFFFFFFFF;
    numamem->base_addr_high = base >> 32;
    numamem->length_low = len & 0xFFFFFFFF;
    numamem->length_high = len >> 32;
}

#define SRAT_SIGNATURE 0x54415253 // SRAT
static void *
build_srat(void)
{
    int nb_numa_nodes = qemu_cfg_get_numa_nodes();

    if (nb_numa_nodes == 0)
        return NULL;

    u64 *numadata = malloc_tmphigh(sizeof(u64) * (MaxCountCPUs + nb_numa_nodes));
    if (!numadata) {
        warn_noalloc();
        return NULL;
    }

    qemu_cfg_get_numa_data(numadata, MaxCountCPUs + nb_numa_nodes);

    struct system_resource_affinity_table *srat;
    int srat_size = sizeof(*srat) +
        sizeof(struct srat_processor_affinity) * MaxCountCPUs +
        sizeof(struct srat_memory_affinity) * (nb_numa_nodes + 2);

    srat = malloc_high(srat_size);
    if (!srat) {
        warn_noalloc();
        free(numadata);
        return NULL;
    }

    memset(srat, 0, srat_size);
    srat->reserved1=1;
    struct srat_processor_affinity *core = (void*)(srat + 1);
    int i;
    u64 curnode;

    for (i = 0; i < MaxCountCPUs; ++i) {
        core->type = SRAT_PROCESSOR;
        core->length = sizeof(*core);
        core->local_apic_id = i;
        curnode = *numadata++;
        core->proximity_lo = curnode;
        memset(core->proximity_hi, 0, 3);
        core->local_sapic_eid = 0;
        if (apic_id_is_present(i))
            core->flags = cpu_to_le32(1);
        else
            core->flags = cpu_to_le32(0);
        core++;
    }


    /* the memory map is a bit tricky, it contains at least one hole
     * from 640k-1M and possibly another one from 3.5G-4G.
     */
    struct srat_memory_affinity *numamem = (void*)core;
    int slots = 0;
    u64 mem_len, mem_base, next_base = 0;

    acpi_build_srat_memory(numamem, 0, 640*1024, 0, 1);
    next_base = 1024 * 1024;
    numamem++;
    slots++;
    for (i = 1; i < nb_numa_nodes + 1; ++i) {
        mem_base = next_base;
        mem_len = *numadata++;
        if (i == 1)
            mem_len -= 1024 * 1024;
        next_base = mem_base + mem_len;

        /* Cut out the PCI hole */
        if (mem_base <= RamSize && next_base > RamSize) {
            mem_len -= next_base - RamSize;
            if (mem_len > 0) {
                acpi_build_srat_memory(numamem, mem_base, mem_len, i-1, 1);
                numamem++;
                slots++;
            }
            mem_base = 1ULL << 32;
            mem_len = next_base - RamSize;
            next_base += (1ULL << 32) - RamSize;
        }
        acpi_build_srat_memory(numamem, mem_base, mem_len, i-1, 1);
        numamem++;
        slots++;
    }
    for (; slots < nb_numa_nodes + 2; slots++) {
        acpi_build_srat_memory(numamem, 0, 0, 0, 0);
        numamem++;
    }

    build_header((void*)srat, SRAT_SIGNATURE, srat_size, 1);

    free(numadata);
    return srat;
}

static const struct pci_device_id acpi_find_tbl[] = {
    /* PIIX4 Power Management device. */
    PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_82371AB_3, NULL),

    PCI_DEVICE_END,
};

struct rsdp_descriptor *RsdpAddr;

#define MAX_ACPI_TABLES 20
void
acpi_bios_init(void)
{
    if (! CONFIG_ACPI)
        return;

    dprintf(3, "init ACPI tables\n");

    // This code is hardcoded for PIIX4 Power Management device.
    struct pci_device *pci = pci_find_init_device(acpi_find_tbl, NULL);
    if (!pci)
        // Device not found
        return;

    // Build ACPI tables
    u32 tables[MAX_ACPI_TABLES], tbl_idx = 0;

#define ACPI_INIT_TABLE(X)                                   \
    do {                                                     \
        tables[tbl_idx] = (u32)(X);                          \
        if (tables[tbl_idx])                                 \
            tbl_idx++;                                       \
    } while(0)

    struct fadt_descriptor_rev1 *fadt = build_fadt(pci);
    ACPI_INIT_TABLE(fadt);
    ACPI_INIT_TABLE(build_ssdt());
    ACPI_INIT_TABLE(build_madt());
    ACPI_INIT_TABLE(build_hpet());
    ACPI_INIT_TABLE(build_srat());

    u16 i, external_tables = qemu_cfg_acpi_additional_tables();

    for (i = 0; i < external_tables; i++) {
        u16 len = qemu_cfg_next_acpi_table_len();
        void *addr = malloc_high(len);
        if (!addr) {
            warn_noalloc();
            continue;
        }
        struct acpi_table_header *header =
            qemu_cfg_next_acpi_table_load(addr, len);
        if (header->signature == DSDT_SIGNATURE) {
            if (fadt) {
                fill_dsdt(fadt, addr);
            }
        } else {
            ACPI_INIT_TABLE(header);
        }
        if (tbl_idx == MAX_ACPI_TABLES) {
            warn_noalloc();
            break;
        }
    }
    if (fadt && !fadt->dsdt) {
        /* default DSDT */
        void *dsdt = malloc_high(sizeof(AmlCode));
        if (!dsdt) {
            warn_noalloc();
            return;
        }
        memcpy(dsdt, AmlCode, sizeof(AmlCode));
        fill_dsdt(fadt, dsdt);
    }

    // Build final rsdt table
    struct rsdt_descriptor_rev1 *rsdt;
    size_t rsdt_len = sizeof(*rsdt) + sizeof(u32) * tbl_idx;
    rsdt = malloc_high(rsdt_len);
    if (!rsdt) {
        warn_noalloc();
        return;
    }
    memset(rsdt, 0, rsdt_len);
    memcpy(rsdt->table_offset_entry, tables, sizeof(u32) * tbl_idx);
    build_header((void*)rsdt, RSDT_SIGNATURE, rsdt_len, 1);

    // Build rsdp pointer table
    struct rsdp_descriptor *rsdp = malloc_fseg(sizeof(*rsdp));
    if (!rsdp) {
        warn_noalloc();
        return;
    }
    memset(rsdp, 0, sizeof(*rsdp));
    rsdp->signature = RSDP_SIGNATURE;
    memcpy(rsdp->oem_id, CONFIG_APPNAME6, 6);
    rsdp->rsdt_physical_address = cpu_to_le32((u32)rsdt);
    rsdp->checksum -= checksum(rsdp, 20);
    RsdpAddr = rsdp;
    dprintf(1, "ACPI tables: RSDP=%p RSDT=%p\n", rsdp, rsdt);
}

u32
find_resume_vector(void)
{
    dprintf(4, "rsdp=%p\n", RsdpAddr);
    if (!RsdpAddr || RsdpAddr->signature != RSDP_SIGNATURE)
        return 0;
    struct rsdt_descriptor_rev1 *rsdt = (void*)RsdpAddr->rsdt_physical_address;
    dprintf(4, "rsdt=%p\n", rsdt);
    if (!rsdt || rsdt->signature != RSDT_SIGNATURE)
        return 0;
    void *end = (void*)rsdt + rsdt->length;
    int i;
    for (i=0; (void*)&rsdt->table_offset_entry[i] < end; i++) {
        struct fadt_descriptor_rev1 *fadt = (void*)rsdt->table_offset_entry[i];
        if (!fadt || fadt->signature != FACP_SIGNATURE)
            continue;
        dprintf(4, "fadt=%p\n", fadt);
        struct facs_descriptor_rev1 *facs = (void*)fadt->firmware_ctrl;
        dprintf(4, "facs=%p\n", facs);
        if (! facs || facs->signature != FACS_SIGNATURE)
            return 0;
        // Found it.
        dprintf(4, "resume addr=%d\n", facs->firmware_waking_vector);
        return facs->firmware_waking_vector;
    }
    return 0;
}