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/*++

Copyright (c) 1998  Intel Corporation

Module Name:

    dpath.c

Abstract:

    MBR & Device Path functions

Revision History

--*/

#include "lib.h"

#define ALIGN_SIZE(a)   ((a % MIN_ALIGNMENT_SIZE) ? MIN_ALIGNMENT_SIZE - (a % MIN_ALIGNMENT_SIZE) : 0)

EFI_DEVICE_PATH *

DevicePathFromHandle (

    IN EFI_HANDLE       Handle

    )

{

    EFI_STATUS          Status;

    EFI_DEVICE_PATH     *DevicePath;

    Status = BS->HandleProtocol (Handle, &DevicePathProtocol, (VOID*)&DevicePath);

    if (EFI_ERROR(Status)) {

        DevicePath = NULL;

    }

    return DevicePath;

}

EFI_DEVICE_PATH *

DevicePathInstance (

    IN OUT EFI_DEVICE_PATH  **DevicePath,

    OUT UINTN               *Size

    )

{

    EFI_DEVICE_PATH         *Start, *Next, *DevPath;

    UINTN                   Count;

    DevPath = *DevicePath;

    Start = DevPath;

    if (!DevPath) {

        return NULL;

    }

    //

    // Check for end of device path type

    //    

    for (Count = 0; ; Count++) {

        Next = NextDevicePathNode(DevPath);

        if (IsDevicePathEndType(DevPath)) {

            break;

        }

        if (Count > 01000) {

            //

            // BugBug: Debug code to catch bogus device paths

            //

            DEBUG((D_ERROR, "DevicePathInstance: DevicePath %x Size %d", *DevicePath, ((UINT8 *) DevPath) - ((UINT8 *) Start) ));

            DumpHex (0, 0, ((UINT8 *) DevPath) - ((UINT8 *) Start), Start);

            break;

        }

        DevPath = Next;

    }

    ASSERT (DevicePathSubType(DevPath) == END_ENTIRE_DEVICE_PATH_SUBTYPE ||

            DevicePathSubType(DevPath) == END_INSTANCE_DEVICE_PATH_SUBTYPE);

    //

    // Set next position

    //

    if (DevicePathSubType(DevPath) == END_ENTIRE_DEVICE_PATH_SUBTYPE) {

        Next = NULL;

    }

    *DevicePath = Next;

    //

    // Return size and start of device path instance

    //

    *Size = ((UINT8 *) DevPath) - ((UINT8 *) Start);

    return Start;

}

UINTN

DevicePathInstanceCount (

    IN EFI_DEVICE_PATH      *DevicePath

    )

{

    UINTN       Count, Size;

    Count = 0;

    while (DevicePathInstance(&DevicePath, &Size)) {

        Count += 1;

    }

    return Count;

}

EFI_DEVICE_PATH *

AppendDevicePath (

    IN EFI_DEVICE_PATH  *Src1,

    IN EFI_DEVICE_PATH  *Src2

    )

// Src1 may have multiple "instances" and each instance is appended

// Src2 is appended to each instance is Src1.  (E.g., it's possible

// to append a new instance to the complete device path by passing 

// it in Src2)

{

    UINTN               Src1Size, Src1Inst, Src2Size, Size;

    EFI_DEVICE_PATH     *Dst, *Inst;

    UINT8               *DstPos;

    //

    // If there's only 1 path, just duplicate it

    //

    if (!Src1) {

        ASSERT (!IsDevicePathUnpacked (Src2));

        return DuplicateDevicePath (Src2);

    }

    if (!Src2) {

        ASSERT (!IsDevicePathUnpacked (Src1));

        return DuplicateDevicePath (Src1);

    }

    //

    // Verify we're not working with unpacked paths

    //

//    ASSERT (!IsDevicePathUnpacked (Src1));

//    ASSERT (!IsDevicePathUnpacked (Src2));

    //

    // Append Src2 to every instance in Src1

    //

    Src1Size = DevicePathSize(Src1);

    Src1Inst = DevicePathInstanceCount(Src1);

    Src2Size = DevicePathSize(Src2);

    Size = Src1Size * Src1Inst + Src2Size;

    Dst = AllocatePool (Size);

    if (Dst) {

        DstPos = (UINT8 *) Dst;

        //

        // Copy all device path instances

        //

        while ((Inst = DevicePathInstance (&Src1, &Size))) {

            CopyMem(DstPos, Inst, Size);

            DstPos += Size;

            CopyMem(DstPos, Src2, Src2Size);

            DstPos += Src2Size;

            CopyMem(DstPos, EndInstanceDevicePath, sizeof(EFI_DEVICE_PATH));

            DstPos += sizeof(EFI_DEVICE_PATH);

        }

        // Change last end marker

        DstPos -= sizeof(EFI_DEVICE_PATH);

        CopyMem(DstPos, EndDevicePath, sizeof(EFI_DEVICE_PATH));

    }

    return Dst;

}

EFI_DEVICE_PATH *

AppendDevicePathNode (

    IN EFI_DEVICE_PATH  *Src1,

    IN EFI_DEVICE_PATH  *Src2

    )

// Src1 may have multiple "instances" and each instance is appended

// Src2 is a signal device path node (without a terminator) that is

// appended to each instance is Src1.

{

    EFI_DEVICE_PATH     *Temp, *Eop;

    UINTN               Length;

    //

    // Build a Src2 that has a terminator on it

    //

    Length = DevicePathNodeLength(Src2);

    Temp = AllocatePool (Length + sizeof(EFI_DEVICE_PATH));

    if (!Temp) {

        return NULL;

    }

    CopyMem (Temp, Src2, Length);

    Eop = NextDevicePathNode(Temp);

    SetDevicePathEndNode(Eop);

    //

    // Append device paths

    //

    Src1 = AppendDevicePath (Src1, Temp);

    FreePool (Temp);

    return Src1;

}

EFI_DEVICE_PATH *

FileDevicePath (

    IN EFI_HANDLE       Device  OPTIONAL,

    IN CHAR16           *FileName

    )

/*++

    N.B. Results are allocated from pool.  The caller must FreePool

    the resulting device path structure

--*/

{

    UINTN                   Size;

    FILEPATH_DEVICE_PATH    *FilePath;

    EFI_DEVICE_PATH         *Eop, *DevicePath;    

    Size = StrSize(FileName);

    FilePath = AllocateZeroPool (Size + SIZE_OF_FILEPATH_DEVICE_PATH + sizeof(EFI_DEVICE_PATH));

    DevicePath = NULL;

    if (FilePath) {

        //

        // Build a file path

        //

        FilePath->Header.Type = MEDIA_DEVICE_PATH;

        FilePath->Header.SubType = MEDIA_FILEPATH_DP;

        SetDevicePathNodeLength (&FilePath->Header, Size + SIZE_OF_FILEPATH_DEVICE_PATH);

        CopyMem (FilePath->PathName, FileName, Size);

        Eop = NextDevicePathNode(&FilePath->Header);

        SetDevicePathEndNode(Eop);

        //

        // Append file path to device's device path

        //

        DevicePath = (EFI_DEVICE_PATH *) FilePath;

        if (Device) {

            DevicePath = AppendDevicePath (

                            DevicePathFromHandle(Device),

                            DevicePath

                            );

            FreePool(FilePath);

        }

    }

    return DevicePath;

}

UINTN

DevicePathSize (

    IN EFI_DEVICE_PATH  *DevPath

    )

{

    EFI_DEVICE_PATH     *Start;

    //

    // Search for the end of the device path structure

    //    

    Start = DevPath;

    while (!IsDevicePathEnd(DevPath)) {

        DevPath = NextDevicePathNode(DevPath);

    }

    //

    // Compute the size

    //

    return ((UINTN) DevPath - (UINTN) Start) + sizeof(EFI_DEVICE_PATH);

}

EFI_DEVICE_PATH *

DuplicateDevicePath (

    IN EFI_DEVICE_PATH  *DevPath

    )

{

    EFI_DEVICE_PATH     *NewDevPath;

    UINTN               Size;    

    //

    // Compute the size

    //

    Size = DevicePathSize (DevPath);

    //

    // Make a copy

    //

    NewDevPath = AllocatePool (Size);

    if (NewDevPath) {

        CopyMem (NewDevPath, DevPath, Size);

    }

    return NewDevPath;

}

EFI_DEVICE_PATH *

UnpackDevicePath (

    IN EFI_DEVICE_PATH  *DevPath

    )

{

    EFI_DEVICE_PATH     *Src, *Dest, *NewPath;

    UINTN               Size;

    //

    // Walk device path and round sizes to valid boundries

    //    

    Src = DevPath;

    Size = 0;

    for (; ;) {

        Size += DevicePathNodeLength(Src);

        Size += ALIGN_SIZE(Size);

        if (IsDevicePathEnd(Src)) {

            break;

        }

        Src = NextDevicePathNode(Src);

    }

    //

    // Allocate space for the unpacked path

    //

    NewPath = AllocateZeroPool (Size);

    if (NewPath) {

        ASSERT (((UINTN)NewPath) % MIN_ALIGNMENT_SIZE == 0);

        //

        // Copy each node

        //

        Src = DevPath;

        Dest = NewPath;

        for (; ;) {

            Size = DevicePathNodeLength(Src);

            CopyMem (Dest, Src, Size);

            Size += ALIGN_SIZE(Size);

            SetDevicePathNodeLength (Dest, Size);

            Dest->Type |= EFI_DP_TYPE_UNPACKED;

            Dest = (EFI_DEVICE_PATH *) (((UINT8 *) Dest) + Size);

            if (IsDevicePathEnd(Src)) {

                break;

            }

            Src = NextDevicePathNode(Src);

        }

    }

    return NewPath;

}

EFI_DEVICE_PATH*

AppendDevicePathInstance (

    IN EFI_DEVICE_PATH  *Src,

    IN EFI_DEVICE_PATH  *Instance

    )

{

    UINT8           *Ptr;

    EFI_DEVICE_PATH *DevPath;

    UINTN           SrcSize;

    UINTN           InstanceSize;

    if (Src == NULL) {

        return DuplicateDevicePath (Instance);

    }

    SrcSize = DevicePathSize(Src);

    InstanceSize = DevicePathSize(Instance);

    Ptr = AllocatePool (SrcSize + InstanceSize);

    DevPath = (EFI_DEVICE_PATH *)Ptr;

    ASSERT(DevPath);

    CopyMem (Ptr, Src, SrcSize);

//    FreePool (Src);

    while (!IsDevicePathEnd(DevPath)) {

        DevPath = NextDevicePathNode(DevPath);

    }

    //

    // Convert the End to an End Instance, since we are

    //  appending another instacne after this one its a good

    //  idea.

    //

    DevPath->SubType = END_INSTANCE_DEVICE_PATH_SUBTYPE;

    DevPath = NextDevicePathNode(DevPath);

    CopyMem (DevPath, Instance, InstanceSize);

    return (EFI_DEVICE_PATH *)Ptr;

}

EFI_STATUS

LibDevicePathToInterface (

    IN EFI_GUID             *Protocol,

    IN EFI_DEVICE_PATH      *FilePath,

    OUT VOID                **Interface

    )

{

    EFI_STATUS              Status;

    EFI_HANDLE              Device;

    Status = BS->LocateDevicePath (Protocol, &FilePath, &Device);

    if (!EFI_ERROR(Status)) {

        // If we didn't get a direct match return not found

        Status = EFI_NOT_FOUND;

        if (IsDevicePathEnd(FilePath)) {

            //

            // It was a direct match, lookup the protocol interface

            //

            Status = BS->HandleProtocol (Device, Protocol, Interface);

        }

    }

    //

    // If there was an error, do not return an interface

    //

    if (EFI_ERROR(Status)) {

        *Interface = NULL;

    }

    return Status;

}

VOID

_DevPathPci (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    PCI_DEVICE_PATH         *Pci;

    Pci = DevPath;

    CatPrint(Str, L"Pci(%x|%x)", Pci->Device, Pci->Function);

}

VOID

_DevPathPccard (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    PCCARD_DEVICE_PATH      *Pccard;

    Pccard = DevPath;  

    CatPrint(Str, L"Pccard(Socket%x)", Pccard->SocketNumber);

}

VOID

_DevPathMemMap (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    MEMMAP_DEVICE_PATH      *MemMap;

    MemMap = DevPath;  

    CatPrint(Str, L"MemMap(%d:%x-%x)",

        MemMap->MemoryType,

        MemMap->StartingAddress,

        MemMap->EndingAddress

        );

}

VOID

_DevPathController (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    CONTROLLER_DEVICE_PATH  *Controller;

    Controller = DevPath;

    CatPrint(Str, L"Ctrl(%d)",

        Controller->Controller

        );

}

VOID

_DevPathVendor (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    VENDOR_DEVICE_PATH                  *Vendor;

    CHAR16                              *Type;

    UNKNOWN_DEVICE_VENDOR_DEVICE_PATH   *UnknownDevPath;

    Vendor = DevPath;

    switch (DevicePathType(&Vendor->Header)) {

    case HARDWARE_DEVICE_PATH:  Type = L"Hw";        break;

    case MESSAGING_DEVICE_PATH: Type = L"Msg";       break;

    case MEDIA_DEVICE_PATH:     Type = L"Media";     break;

    default:                    Type = L"?";         break;

    }                            

    CatPrint(Str, L"Ven%s(%g", Type, &Vendor->Guid);

    if (CompareGuid (&Vendor->Guid, &UnknownDevice) == 0) {

        //

        // GUID used by EFI to enumerate an EDD 1.1 device

        //

        UnknownDevPath = (UNKNOWN_DEVICE_VENDOR_DEVICE_PATH *)Vendor;

        CatPrint(Str, L":%02x)", UnknownDevPath->LegacyDriveLetter);

    } else {

        CatPrint(Str, L")");

    }

}

VOID

_DevPathAcpi (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    ACPI_HID_DEVICE_PATH        *Acpi;

    Acpi = DevPath;

    if ((Acpi->HID & PNP_EISA_ID_MASK) == PNP_EISA_ID_CONST) {

        CatPrint(Str, L"Acpi(PNP%04x,%x)", EISA_ID_TO_NUM (Acpi->HID), Acpi->UID);

    } else {

        CatPrint(Str, L"Acpi(%08x,%x)", Acpi->HID, Acpi->UID);

    }

}

VOID

_DevPathAtapi (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    ATAPI_DEVICE_PATH       *Atapi;

    Atapi = DevPath;

    CatPrint(Str, L"Ata(%s,%s)",

        Atapi->PrimarySecondary ? L"Secondary" : L"Primary",

        Atapi->SlaveMaster ? L"Slave" : L"Master"

        );

}

VOID

_DevPathScsi (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    SCSI_DEVICE_PATH        *Scsi;

    Scsi = DevPath;

    CatPrint(Str, L"Scsi(Pun%x,Lun%x)", Scsi->Pun, Scsi->Lun);

}

VOID

_DevPathFibre (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    FIBRECHANNEL_DEVICE_PATH    *Fibre;

    Fibre = DevPath;

    CatPrint(Str, L"Fibre(%lx)", Fibre->WWN);

}

VOID

_DevPath1394 (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    F1394_DEVICE_PATH       *F1394;

    F1394 = DevPath;

    CatPrint(Str, L"1394(%g)", &F1394->Guid);

}

VOID

_DevPathUsb (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    USB_DEVICE_PATH         *Usb;

    Usb = DevPath;

    CatPrint(Str, L"Usb(%x)", Usb->Port);

}

VOID

_DevPathI2O (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    I2O_DEVICE_PATH         *I2O;

    I2O = DevPath;

    CatPrint(Str, L"I2O(%x)", I2O->Tid);

}

VOID

_DevPathMacAddr (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    MAC_ADDR_DEVICE_PATH    *MAC;

    UINTN                   HwAddressSize;

    UINTN                   Index;

    MAC = DevPath;

    HwAddressSize = sizeof(EFI_MAC_ADDRESS);

    if (MAC->IfType == 0x01 || MAC->IfType == 0x00) {

        HwAddressSize = 6;

    }

    CatPrint(Str, L"Mac(");

    for(Index = 0; Index < HwAddressSize; Index++) {

        CatPrint(Str, L"%02x",MAC->MacAddress.Addr[Index]);

    }

    CatPrint(Str, L")");

}

VOID

_DevPathIPv4 (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    IPv4_DEVICE_PATH     *IP;

    IP = DevPath;

    CatPrint(Str, L"IPv4(not-done)");

}

VOID

_DevPathIPv6 (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    IPv6_DEVICE_PATH     *IP;

    IP = DevPath;

    CatPrint(Str, L"IP-v6(not-done)");

}

VOID

_DevPathInfiniBand (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    INFINIBAND_DEVICE_PATH  *InfiniBand;

    InfiniBand = DevPath;

    CatPrint(Str, L"InfiniBand(not-done)");

}

VOID

_DevPathUart (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    UART_DEVICE_PATH  *Uart;

    CHAR8             Parity;

    Uart = DevPath;

    switch (Uart->Parity) {

        case 0  : Parity = 'D'; break;

        case 1  : Parity = 'N'; break;

        case 2  : Parity = 'E'; break;

        case 3  : Parity = 'O'; break;

        case 4  : Parity = 'M'; break;

        case 5  : Parity = 'S'; break;

        default : Parity = 'x'; break;

    }

    if (Uart->BaudRate == 0) {

        CatPrint(Str, L"Uart(DEFAULT %c",Uart->BaudRate,Parity);

    } else {

        CatPrint(Str, L"Uart(%d %c",Uart->BaudRate,Parity);

    }

    if (Uart->DataBits == 0) {

        CatPrint(Str, L"D");

    } else {

        CatPrint(Str, L"%d",Uart->DataBits);

    }

    switch (Uart->StopBits) {

        case 0  : CatPrint(Str, L"D)");   break;

        case 1  : CatPrint(Str, L"1)");   break;

        case 2  : CatPrint(Str, L"1.5)"); break;

        case 3  : CatPrint(Str, L"2)");   break;

        default : CatPrint(Str, L"x)");   break;

    }

}

VOID

_DevPathHardDrive (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    HARDDRIVE_DEVICE_PATH   *Hd;

    Hd = DevPath;

    switch (Hd->SignatureType) {

        case SIGNATURE_TYPE_MBR:

            CatPrint(Str, L"HD(Part%d,Sig%08X)",

                Hd->PartitionNumber,

                *((UINT32 *)(&(Hd->Signature[0])))

                );

            break;

        case SIGNATURE_TYPE_GUID:

            CatPrint(Str, L"HD(Part%d,Sig%g)",

                Hd->PartitionNumber,

                (EFI_GUID *) &(Hd->Signature[0])    

                );

            break;

        default:

            CatPrint(Str, L"HD(Part%d,MBRType=%02x,SigType=%02x)",

                Hd->PartitionNumber,

                Hd->MBRType,

                Hd->SignatureType

                );

            break;

    }

}

VOID

_DevPathCDROM (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    CDROM_DEVICE_PATH       *Cd;

    Cd = DevPath;

    CatPrint(Str, L"CDROM(Entry%x)", Cd->BootEntry);

}

VOID

_DevPathFilePath (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    FILEPATH_DEVICE_PATH    *Fp;  

    Fp = DevPath;

    CatPrint(Str, L"%s", Fp->PathName);

}

VOID

_DevPathMediaProtocol (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    MEDIA_PROTOCOL_DEVICE_PATH  *MediaProt;

    MediaProt = DevPath;

    CatPrint(Str, L"%g", &MediaProt->Protocol);

}

VOID

_DevPathBssBss (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    BBS_BBS_DEVICE_PATH     *Bss;

    CHAR16                  *Type;

    Bss = DevPath;

    switch (Bss->DeviceType) {

    case BBS_TYPE_FLOPPY:               Type = L"Floppy";       break;

    case BBS_TYPE_HARDDRIVE:            Type = L"Harddrive";    break;

    case BBS_TYPE_CDROM:                Type = L"CDROM";        break;

    case BBS_TYPE_PCMCIA:               Type = L"PCMCIA";       break;

    case BBS_TYPE_USB:                  Type = L"Usb";          break;

    case BBS_TYPE_EMBEDDED_NETWORK:     Type = L"Net";          break;

    default:                            Type = L"?";            break;

    }

    CatPrint(Str, L"Bss-%s(%a)", Type, Bss->String);

}

VOID

_DevPathEndInstance (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    CatPrint(Str, L",");

}

VOID

_DevPathNodeUnknown (

    IN OUT POOL_PRINT       *Str,

    IN VOID                 *DevPath

    )

{

    CatPrint(Str, L"?");

}

struct {

    UINT8   Type;

    UINT8   SubType;

    VOID    (*Function)(POOL_PRINT *, VOID *);    

} DevPathTable[] = {

    { HARDWARE_DEVICE_PATH,   HW_PCI_DP,                        _DevPathPci},

    { HARDWARE_DEVICE_PATH,   HW_PCCARD_DP,                     _DevPathPccard},

    { HARDWARE_DEVICE_PATH,   HW_MEMMAP_DP,                     _DevPathMemMap},

    { HARDWARE_DEVICE_PATH,   HW_VENDOR_DP,                     _DevPathVendor},

    { HARDWARE_DEVICE_PATH,   HW_CONTROLLER_DP,                 _DevPathController},

    { ACPI_DEVICE_PATH,       ACPI_DP,                          _DevPathAcpi},

    { MESSAGING_DEVICE_PATH,  MSG_ATAPI_DP,                     _DevPathAtapi},