audk/EdkNt32Pkg/Library/EdkGenericBdsLib/DevicePath.c

1120 lines
23 KiB
C

/*++
Copyright (c) 2006 - 2007, Intel Corporation
All rights reserved. This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
Module Name:
DevicePath.c
Abstract:
BDS internal function define the default device path string, it can be
replaced by platform device path.
--*/
EFI_GUID mEfiWinNtThunkProtocolGuid = EFI_WIN_NT_THUNK_PROTOCOL_GUID;
EFI_GUID mEfiWinNtUgaGuid = EFI_WIN_NT_UGA_GUID;
EFI_GUID mEfiWinNtGopGuid = EFI_WIN_NT_GOP_GUID;
EFI_GUID mEfiWinNtSerialPortGuid = EFI_WIN_NT_SERIAL_PORT_GUID;
EFI_GUID mEfiMsgPcAnsiGuid = DEVICE_PATH_MESSAGING_PC_ANSI;
EFI_GUID mEfiMsgVt100Guid = DEVICE_PATH_MESSAGING_VT_100;
EFI_GUID mEfiMsgVt100PlusGuid = DEVICE_PATH_MESSAGING_VT_100_PLUS;
EFI_GUID mEfiMsgVt100Utf8Guid = DEVICE_PATH_MESSAGING_VT_UTF8;
VOID *
ReallocatePool (
IN VOID *OldPool,
IN UINTN OldSize,
IN UINTN NewSize
)
/*++
Routine Description:
Adjusts the size of a previously allocated buffer.
Arguments:
OldPool - A pointer to the buffer whose size is being adjusted.
OldSize - The size of the current buffer.
NewSize - The size of the new buffer.
Returns:
EFI_SUCEESS - The requested number of bytes were allocated.
EFI_OUT_OF_RESOURCES - The pool requested could not be allocated.
EFI_INVALID_PARAMETER - The buffer was invalid.
--*/
{
VOID *NewPool;
NewPool = NULL;
if (NewSize) {
NewPool = AllocateZeroPool (NewSize);
}
if (OldPool) {
if (NewPool) {
CopyMem (NewPool, OldPool, OldSize < NewSize ? OldSize : NewSize);
}
FreePool (OldPool);
}
return NewPool;
}
CHAR16 *
CatPrint (
IN OUT POOL_PRINT *Str,
IN CHAR16 *fmt,
...
)
/*++
Routine Description:
Concatenates a formatted unicode string to allocated pool.
The caller must free the resulting buffer.
Arguments:
Str - Tracks the allocated pool, size in use, and
amount of pool allocated.
fmt - The format string
Returns:
Allocated buffer with the formatted string printed in it.
The caller must free the allocated buffer. The buffer
allocation is not packed.
--*/
{
UINT16 *AppendStr;
VA_LIST args;
UINTN strsize;
AppendStr = AllocateZeroPool (0x1000);
if (AppendStr == NULL) {
return Str->str;
}
VA_START (args, fmt);
UnicodeVSPrint (AppendStr, 0x1000, fmt, args);
VA_END (args);
if (NULL == Str->str) {
strsize = StrSize (AppendStr);
Str->str = AllocateZeroPool (strsize);
ASSERT (Str->str != NULL);
} else {
strsize = StrSize (AppendStr) + StrSize (Str->str) - sizeof (UINT16);
Str->str = ReallocatePool (
Str->str,
StrSize (Str->str),
strsize
);
ASSERT (Str->str != NULL);
}
Str->maxlen = MAX_CHAR * sizeof (UINT16);
if (strsize < Str->maxlen) {
StrCat (Str->str, AppendStr);
Str->len = strsize - sizeof (UINT16);
}
FreePool (AppendStr);
return Str->str;
}
EFI_DEVICE_PATH_PROTOCOL *
BdsLibUnpackDevicePath (
IN EFI_DEVICE_PATH_PROTOCOL *DevPath
)
/*++
Routine Description:
Function unpacks a device path data structure so that all the nodes
of a device path are naturally aligned.
Arguments:
DevPath - A pointer to a device path data structure
Returns:
If the memory for the device path is successfully allocated, then a
pointer to the new device path is returned. Otherwise, NULL is returned.
--*/
{
EFI_DEVICE_PATH_PROTOCOL *Src;
EFI_DEVICE_PATH_PROTOCOL *Dest;
EFI_DEVICE_PATH_PROTOCOL *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_PROTOCOL *) (((UINT8 *) Dest) + Size);
if (IsDevicePathEnd (Src)) {
break;
}
Src = NextDevicePathNode (Src);
}
}
return NewPath;
}
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"Pcmcia(Function%x)", Pccard->FunctionNumber);
}
VOID
DevPathMemMap (
IN OUT POOL_PRINT *Str,
IN VOID *DevPath
)
{
MEMMAP_DEVICE_PATH *MemMap;
MemMap = DevPath;
CatPrint (
Str,
L"MemMap(%d:%.lx-%.lx)",
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->ControllerNumber);
}
VOID
DevPathVendor (
IN OUT POOL_PRINT *Str,
IN VOID *DevPath
)
/*++
Routine Description:
Convert Vendor device path to device name
Arguments:
Str - The buffer store device name
DevPath - Pointer to vendor device path
Returns:
When it return, the device name have been stored in *Str.
--*/
{
VENDOR_DEVICE_PATH *Vendor;
CHAR16 *Type;
INT32 *Temp;
Vendor = DevPath;
Temp = (INT32 *) (&Vendor->Guid);
switch (DevicePathType (&Vendor->Header)) {
case HARDWARE_DEVICE_PATH:
//
// If the device is a winntbus device, we will give it a readable device name.
//
if (CompareGuid (&Vendor->Guid, &mEfiWinNtThunkProtocolGuid)) {
CatPrint (Str, L"%s", L"WinNtBus");
return ;
} else if (CompareGuid (&Vendor->Guid, &mEfiWinNtUgaGuid)) {
CatPrint (Str, L"%s", L"UGA");
return ;
} else if (CompareGuid (&Vendor->Guid, &mEfiWinNtGopGuid)) {
CatPrint (Str, L"%s", L"GOP");
return ;
} else if (CompareGuid (&Vendor->Guid, &mEfiWinNtSerialPortGuid)) {
CatPrint (Str, L"%s", L"Serial");
return ;
} else {
Type = L"Hw";
break;
}
case MESSAGING_DEVICE_PATH:
//
// If the device is a winntbus device, we will give it a readable device name.
//
if (CompareGuid (&Vendor->Guid, &mEfiMsgPcAnsiGuid)) {
CatPrint (Str, L"%s", L"PC-ANSI");
return ;
} else if (CompareGuid (&Vendor->Guid, &mEfiMsgVt100Guid)) {
CatPrint (Str, L"%s", L"VT100");
return ;
} else if (CompareGuid (&Vendor->Guid, &mEfiMsgVt100PlusGuid)) {
CatPrint (Str, L"%s", L"VT100+");
return ;
} else if (CompareGuid (&Vendor->Guid, &mEfiMsgVt100Utf8Guid)) {
CatPrint (Str, L"%s", L"VT100-UTF8");
return ;
} else {
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);
}
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
DevPathExtendedAcpi (
IN OUT POOL_PRINT *Str,
IN VOID *DevPath
)
{
ACPI_EXTENDED_HID_DEVICE_PATH *ExtendedAcpi;
//
// Index for HID, UID and CID strings, 0 for non-exist
//
UINT16 HIDSTRIdx;
UINT16 UIDSTRIdx;
UINT16 CIDSTRIdx;
UINT16 Index;
UINT16 Length;
UINT16 Anchor;
CHAR8 *AsChar8Array;
ASSERT (Str != NULL);
ASSERT (DevPath != NULL);
HIDSTRIdx = 0;
UIDSTRIdx = 0;
CIDSTRIdx = 0;
ExtendedAcpi = DevPath;
Length = DevicePathNodeLength ((EFI_DEVICE_PATH_PROTOCOL *) ExtendedAcpi);
ASSERT (Length >= 19);
AsChar8Array = (CHAR8 *) ExtendedAcpi;
//
// find HIDSTR
//
Anchor = 16;
for (Index = Anchor; Index < Length && AsChar8Array[Index]; Index++) {
;
}
if (Index > Anchor) {
HIDSTRIdx = Anchor;
}
//
// find UIDSTR
//
Anchor = Index + 1;
for (Index = Anchor; Index < Length && AsChar8Array[Index]; Index++) {
;
}
if (Index > Anchor) {
UIDSTRIdx = Anchor;
}
//
// find CIDSTR
//
Anchor = Index + 1;
for (Index = Anchor; Index < Length && AsChar8Array[Index]; Index++) {
;
}
if (Index > Anchor) {
CIDSTRIdx = Anchor;
}
if (HIDSTRIdx == 0 && CIDSTRIdx == 0 && ExtendedAcpi->UID == 0) {
CatPrint (Str, L"AcpiExp(");
if ((ExtendedAcpi->HID & PNP_EISA_ID_MASK) == PNP_EISA_ID_CONST) {
CatPrint (Str, L"PNP%04x,", EISA_ID_TO_NUM (ExtendedAcpi->HID));
} else {
CatPrint (Str, L"%08x,", ExtendedAcpi->HID);
}
if ((ExtendedAcpi->CID & PNP_EISA_ID_MASK) == PNP_EISA_ID_CONST) {
CatPrint (Str, L"PNP%04x,", EISA_ID_TO_NUM (ExtendedAcpi->CID));
} else {
CatPrint (Str, L"%08x,", ExtendedAcpi->CID);
}
if (UIDSTRIdx != 0) {
CatPrint (Str, L"%a)", AsChar8Array + UIDSTRIdx);
} else {
CatPrint (Str, L"\"\")");
}
} else {
CatPrint (Str, L"AcpiEx(");
if ((ExtendedAcpi->HID & PNP_EISA_ID_MASK) == PNP_EISA_ID_CONST) {
CatPrint (Str, L"PNP%04x,", EISA_ID_TO_NUM (ExtendedAcpi->HID));
} else {
CatPrint (Str, L"%08x,", ExtendedAcpi->HID);
}
if ((ExtendedAcpi->CID & PNP_EISA_ID_MASK) == PNP_EISA_ID_CONST) {
CatPrint (Str, L"PNP%04x,", EISA_ID_TO_NUM (ExtendedAcpi->CID));
} else {
CatPrint (Str, L"%08x,", ExtendedAcpi->CID);
}
CatPrint (Str, L"%x,", ExtendedAcpi->UID);
if (HIDSTRIdx != 0) {
CatPrint (Str, L"%a,", AsChar8Array + HIDSTRIdx);
} else {
CatPrint (Str, L"\"\",");
}
if (CIDSTRIdx != 0) {
CatPrint (Str, L"%a,", AsChar8Array + CIDSTRIdx);
} else {
CatPrint (Str, L"\"\",");
}
if (UIDSTRIdx != 0) {
CatPrint (Str, L"%a)", AsChar8Array + UIDSTRIdx);
} else {
CatPrint (Str, L"\"\")");
}
}
}
VOID
DevPathAdrAcpi (
IN OUT POOL_PRINT *Str,
IN VOID *DevPath
)
{
ACPI_ADR_DEVICE_PATH *AcpiAdr;
UINT16 Index;
UINT16 Length;
UINT16 AdditionalAdrCount;
AcpiAdr = DevPath;
Length = DevicePathNodeLength ((EFI_DEVICE_PATH_PROTOCOL *) AcpiAdr);
AdditionalAdrCount = (Length - 8) / 4;
CatPrint (Str, L"AcpiAdr(%x", AcpiAdr->ADR);
for (Index = 0; Index < AdditionalAdrCount; Index++) {
CatPrint (Str, L",%x", *(UINT32 *) ((UINT8 *) AcpiAdr + 8 + Index * 4));
}
CatPrint (Str, L")");
}
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(Wwn%lx,Lun%x)", Fibre->WWN, Fibre->Lun);
}
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, %x)", Usb->ParentPortNumber, Usb->InterfaceNumber);
}
VOID
DevPathUsbClass (
IN OUT POOL_PRINT *Str,
IN VOID *DevPath
)
{
USB_CLASS_DEVICE_PATH *UsbClass;
UsbClass = DevPath;
CatPrint (
Str,
L"Usb Class(%x, %x, %x, %x, %x)",
UsbClass->VendorId,
UsbClass->ProductId,
UsbClass->DeviceClass,
UsbClass->DeviceSubClass,
UsbClass->DeviceProtocol
);
}
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(%d.%d.%d.%d:%d)",
IP->RemoteIpAddress.Addr[0],
IP->RemoteIpAddress.Addr[1],
IP->RemoteIpAddress.Addr[2],
IP->RemoteIpAddress.Addr[3],
IP->RemotePort
);
}
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", 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
DevPathFvFilePath (
IN OUT POOL_PRINT *Str,
IN VOID *DevPath
)
{
MEDIA_FW_VOL_FILEPATH_DEVICE_PATH *FvFilePath;
FvFilePath = DevPath;
CatPrint (Str, L"%g", &FvFilePath->NameGuid);
}
VOID
DevPathBssBss (
IN OUT POOL_PRINT *Str,
IN VOID *DevPath
)
{
BBS_BBS_DEVICE_PATH *Bbs;
CHAR16 *Type;
Bbs = DevPath;
switch (Bbs->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;
}
//
// Since current Print function hasn't implemented %a (for ansi string)
// we will only print Unicode strings.
//
CatPrint (Str, L"Legacy-%s", Type);
}
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"?");
}
DEVICE_PATH_STRING_TABLE 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,
ACPI_DEVICE_PATH,
ACPI_EXTENDED_DP,
DevPathExtendedAcpi,
ACPI_DEVICE_PATH,
ACPI_ADR_DP,
DevPathAdrAcpi,
MESSAGING_DEVICE_PATH,
MSG_ATAPI_DP,
DevPathAtapi,
MESSAGING_DEVICE_PATH,
MSG_SCSI_DP,
DevPathScsi,
MESSAGING_DEVICE_PATH,
MSG_FIBRECHANNEL_DP,
DevPathFibre,
MESSAGING_DEVICE_PATH,
MSG_1394_DP,
DevPath1394,
MESSAGING_DEVICE_PATH,
MSG_USB_DP,
DevPathUsb,
MESSAGING_DEVICE_PATH,
MSG_USB_CLASS_DP,
DevPathUsbClass,
MESSAGING_DEVICE_PATH,
MSG_I2O_DP,
DevPathI2O,
MESSAGING_DEVICE_PATH,
MSG_MAC_ADDR_DP,
DevPathMacAddr,
MESSAGING_DEVICE_PATH,
MSG_IPv4_DP,
DevPathIPv4,
MESSAGING_DEVICE_PATH,
MSG_IPv6_DP,
DevPathIPv6,
MESSAGING_DEVICE_PATH,
MSG_INFINIBAND_DP,
DevPathInfiniBand,
MESSAGING_DEVICE_PATH,
MSG_UART_DP,
DevPathUart,
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
DevPathVendor,
MEDIA_DEVICE_PATH,
MEDIA_HARDDRIVE_DP,
DevPathHardDrive,
MEDIA_DEVICE_PATH,
MEDIA_CDROM_DP,
DevPathCDROM,
MEDIA_DEVICE_PATH,
MEDIA_VENDOR_DP,
DevPathVendor,
MEDIA_DEVICE_PATH,
MEDIA_FILEPATH_DP,
DevPathFilePath,
MEDIA_DEVICE_PATH,
MEDIA_PROTOCOL_DP,
DevPathMediaProtocol,
BBS_DEVICE_PATH,
BBS_BBS_DP,
DevPathBssBss,
END_DEVICE_PATH_TYPE,
END_INSTANCE_DEVICE_PATH_SUBTYPE,
DevPathEndInstance,
0,
0,
NULL
};
CHAR16 *
DevicePathToStr (
IN EFI_DEVICE_PATH_PROTOCOL *DevPath
)
/*++
Turns the Device Path into a printable string. Allcoates
the string from pool. The caller must SafeFreePool the returned
string.
--*/
{
POOL_PRINT Str;
EFI_DEVICE_PATH_PROTOCOL *DevPathNode;
VOID (*DumpNode) (POOL_PRINT *, VOID *);
UINTN Index;
UINTN NewSize;
ZeroMem (&Str, sizeof (Str));
if (DevPath == NULL) {
goto Done;
}
//
// Unpacked the device path
//
DevPath = BdsLibUnpackDevicePath (DevPath);
ASSERT (DevPath);
//
// Process each device path node
//
DevPathNode = DevPath;
while (!IsDevicePathEnd (DevPathNode)) {
//
// Find the handler to dump this device path node
//
DumpNode = NULL;
for (Index = 0; DevPathTable[Index].Function; Index += 1) {
if (DevicePathType (DevPathNode) == DevPathTable[Index].Type &&
DevicePathSubType (DevPathNode) == DevPathTable[Index].SubType
) {
DumpNode = DevPathTable[Index].Function;
break;
}
}
//
// If not found, use a generic function
//
if (!DumpNode) {
DumpNode = DevPathNodeUnknown;
}
//
// Put a path seperator in if needed
//
if (Str.len && DumpNode != DevPathEndInstance) {
CatPrint (&Str, L"/");
}
//
// Print this node of the device path
//
DumpNode (&Str, DevPathNode);
//
// Next device path node
//
DevPathNode = NextDevicePathNode (DevPathNode);
}
//
// Shrink pool used for string allocation
//
FreePool (DevPath);
Done:
NewSize = (Str.len + 1) * sizeof (CHAR16);
Str.str = ReallocatePool (Str.str, NewSize, NewSize);
ASSERT (Str.str != NULL);
Str.str[Str.len] = 0;
return Str.str;
}
EFI_DEVICE_PATH_PROTOCOL *
LibDuplicateDevicePathInstance (
IN EFI_DEVICE_PATH_PROTOCOL *DevPath
)
/*++
Routine Description:
Function creates a device path data structure that identically matches the
device path passed in.
Arguments:
DevPath - A pointer to a device path data structure.
Returns:
The new copy of DevPath is created to identically match the input.
Otherwise, NULL is returned.
--*/
{
EFI_DEVICE_PATH_PROTOCOL *NewDevPath;
EFI_DEVICE_PATH_PROTOCOL *DevicePathInst;
EFI_DEVICE_PATH_PROTOCOL *Temp;
UINTN Size;
//
// get the size of an instance from the input
//
Temp = DevPath;
DevicePathInst = GetNextDevicePathInstance (&Temp, &Size);
//
// Make a copy
//
NewDevPath = NULL;
if (Size) {
NewDevPath = AllocateZeroPool (Size);
ASSERT (NewDevPath != NULL);
}
if (NewDevPath) {
CopyMem (NewDevPath, DevicePathInst, Size);
}
return NewDevPath;
}