CloverBootloader/BaseTools/Source/C/DevicePath/DevicePathFromText.c
Sergey Isakov b1264ef1e3 changes of BaseTools
Signed-off-by: Sergey Isakov <isakov-sl@bk.ru>
2019-09-04 23:02:41 +03:00

3521 lines
107 KiB
C
Executable File

/** @file
DevicePathFromText protocol as defined in the UEFI 2.0 specification.
Copyright (c) 2017 - 2018, Intel Corporation. All rights reserved.<BR>
SPDX-License-Identifier: BSD-2-Clause-Patent
**/
#include "UefiDevicePathLib.h"
/**
Duplicates a string.
@param Src Source string.
@return The duplicated string.
**/
CHAR16 *
UefiDevicePathLibStrDuplicate (
CONST CHAR16 *Src
)
{
return AllocateCopyPool (StrSize (Src), Src);
}
/**
Get parameter in a pair of parentheses follow the given node name.
For example, given the "Pci(0,1)" and NodeName "Pci", it returns "0,1".
@param Str Device Path Text.
@param NodeName Name of the node.
@return Parameter text for the node.
**/
CHAR16 *
GetParamByNodeName (
CHAR16 *Str,
CHAR16 *NodeName
)
{
CHAR16 *ParamStr;
CHAR16 *StrPointer;
UINTN NodeNameLength;
UINTN ParameterLength;
//
// Check whether the node name matchs
//
NodeNameLength = StrLen (NodeName);
if (StrnCmp (Str, NodeName, NodeNameLength) != 0) {
return NULL;
}
ParamStr = Str + NodeNameLength;
if (!IS_LEFT_PARENTH (*ParamStr)) {
return NULL;
}
//
// Skip the found '(' and find first occurrence of ')'
//
ParamStr++;
ParameterLength = 0;
StrPointer = ParamStr;
while (!IS_NULL (*StrPointer)) {
if (IS_RIGHT_PARENTH (*StrPointer)) {
break;
}
StrPointer++;
ParameterLength++;
}
if (IS_NULL (*StrPointer)) {
//
// ')' not found
//
return NULL;
}
ParamStr = AllocateCopyPool ((ParameterLength + 1) * sizeof (CHAR16), ParamStr);
if (ParamStr == NULL) {
return NULL;
}
//
// Terminate the parameter string
//
ParamStr[ParameterLength] = L'\0';
return ParamStr;
}
/**
Gets the next parameter string from the list.
@param List A string list separated by the specified separator
@return A pointer to the current sub-string
**/
CHAR16 *
GetNextParamStr (
CHAR16 **List
)
{
//
// The separator is comma
//
return SplitStr (List, L',');
}
/**
Get one device node from entire device path text.
@param DevicePath On input, the current Device Path node; on output, the next device path node
@param IsInstanceEnd This node is the end of a device path instance
@return A device node text or NULL if no more device node available
**/
CHAR16 *
GetNextDeviceNodeStr (
CHAR16 **DevicePath,
BOOLEAN *IsInstanceEnd
)
{
CHAR16 *Str;
CHAR16 *ReturnStr;
UINTN ParenthesesStack;
Str = *DevicePath;
if (IS_NULL (*Str)) {
return NULL;
}
//
// Skip the leading '/', '(', ')' and ','
//
while (!IS_NULL (*Str)) {
if (!IS_SLASH (*Str) &&
!IS_COMMA (*Str) &&
!IS_LEFT_PARENTH (*Str) &&
!IS_RIGHT_PARENTH (*Str)) {
break;
}
Str++;
}
ReturnStr = Str;
//
// Scan for the separator of this device node, '/' or ','
//
ParenthesesStack = 0;
while (!IS_NULL (*Str)) {
if ((IS_COMMA (*Str) || IS_SLASH (*Str)) && (ParenthesesStack == 0)) {
break;
}
if (IS_LEFT_PARENTH (*Str)) {
ParenthesesStack++;
} else if (IS_RIGHT_PARENTH (*Str)) {
ParenthesesStack--;
}
Str++;
}
if (ParenthesesStack != 0) {
//
// The '(' doesn't pair with ')', invalid device path text
//
return NULL;
}
if (IS_COMMA (*Str)) {
*IsInstanceEnd = TRUE;
*Str = L'\0';
Str++;
} else {
*IsInstanceEnd = FALSE;
if (!IS_NULL (*Str)) {
*Str = L'\0';
Str++;
}
}
*DevicePath = Str;
return ReturnStr;
}
/**
Converts a generic text device path node to device path structure.
@param Type The type of the device path node.
@param TextDeviceNode The input text device path node.
@return A pointer to device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextGenericPath (
UINT8 Type,
CHAR16 *TextDeviceNode
)
{
EFI_DEVICE_PATH_PROTOCOL *Node;
CHAR16 *SubtypeStr;
CHAR16 *DataStr;
UINTN DataLength;
SubtypeStr = GetNextParamStr (&TextDeviceNode);
DataStr = GetNextParamStr (&TextDeviceNode);
if (DataStr == NULL) {
DataLength = 0;
} else {
DataLength = StrLen (DataStr) / 2;
}
Node = CreateDeviceNode (
Type,
(UINT8) Strtoi (SubtypeStr),
(UINT16) (sizeof (EFI_DEVICE_PATH_PROTOCOL) + DataLength)
);
StrHexToBytes (DataStr, DataLength * 2, (UINT8 *) (Node + 1), DataLength);
return Node;
}
/**
Converts a generic text device path node to device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPath (
CHAR16 *TextDeviceNode
)
{
CHAR16 *TypeStr;
TypeStr = GetNextParamStr (&TextDeviceNode);
return DevPathFromTextGenericPath ((UINT8) Strtoi (TypeStr), TextDeviceNode);
}
/**
Converts a generic hardware text device path node to Hardware device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to Hardware device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextHardwarePath (
CHAR16 *TextDeviceNode
)
{
return DevPathFromTextGenericPath (HARDWARE_DEVICE_PATH, TextDeviceNode);
}
/**
Converts a text device path node to Hardware PCI device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to Hardware PCI device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPci (
CHAR16 *TextDeviceNode
)
{
CHAR16 *FunctionStr;
CHAR16 *DeviceStr;
PCI_DEVICE_PATH *Pci;
DeviceStr = GetNextParamStr (&TextDeviceNode);
FunctionStr = GetNextParamStr (&TextDeviceNode);
Pci = (PCI_DEVICE_PATH *) CreateDeviceNode (
HARDWARE_DEVICE_PATH,
HW_PCI_DP,
(UINT16) sizeof (PCI_DEVICE_PATH)
);
Pci->Function = (UINT8) Strtoi (FunctionStr);
Pci->Device = (UINT8) Strtoi (DeviceStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Pci;
}
/**
Converts a text device path node to Hardware PC card device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to Hardware PC card device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPcCard (
CHAR16 *TextDeviceNode
)
{
CHAR16 *FunctionNumberStr;
PCCARD_DEVICE_PATH *Pccard;
FunctionNumberStr = GetNextParamStr (&TextDeviceNode);
Pccard = (PCCARD_DEVICE_PATH *) CreateDeviceNode (
HARDWARE_DEVICE_PATH,
HW_PCCARD_DP,
(UINT16) sizeof (PCCARD_DEVICE_PATH)
);
Pccard->FunctionNumber = (UINT8) Strtoi (FunctionNumberStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Pccard;
}
/**
Converts a text device path node to Hardware memory map device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to Hardware memory map device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMemoryMapped (
CHAR16 *TextDeviceNode
)
{
CHAR16 *MemoryTypeStr;
CHAR16 *StartingAddressStr;
CHAR16 *EndingAddressStr;
MEMMAP_DEVICE_PATH *MemMap;
MemoryTypeStr = GetNextParamStr (&TextDeviceNode);
StartingAddressStr = GetNextParamStr (&TextDeviceNode);
EndingAddressStr = GetNextParamStr (&TextDeviceNode);
MemMap = (MEMMAP_DEVICE_PATH *) CreateDeviceNode (
HARDWARE_DEVICE_PATH,
HW_MEMMAP_DP,
(UINT16) sizeof (MEMMAP_DEVICE_PATH)
);
MemMap->MemoryType = (UINT32) Strtoi (MemoryTypeStr);
Strtoi64 (StartingAddressStr, &MemMap->StartingAddress);
Strtoi64 (EndingAddressStr, &MemMap->EndingAddress);
return (EFI_DEVICE_PATH_PROTOCOL *) MemMap;
}
/**
Converts a text device path node to Vendor device path structure based on the input Type
and SubType.
@param TextDeviceNode The input Text device path node.
@param Type The type of device path node.
@param SubType The subtype of device path node.
@return A pointer to the newly-created Vendor device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
ConvertFromTextVendor (
CHAR16 *TextDeviceNode,
UINT8 Type,
UINT8 SubType
)
{
CHAR16 *GuidStr;
CHAR16 *DataStr;
UINTN Length;
VENDOR_DEVICE_PATH *Vendor;
GuidStr = GetNextParamStr (&TextDeviceNode);
DataStr = GetNextParamStr (&TextDeviceNode);
Length = StrLen (DataStr);
//
// Two hex characters make up 1 buffer byte
//
Length = (Length + 1) / 2;
Vendor = (VENDOR_DEVICE_PATH *) CreateDeviceNode (
Type,
SubType,
(UINT16) (sizeof (VENDOR_DEVICE_PATH) + Length)
);
StrToGuid (GuidStr, &Vendor->Guid);
StrHexToBytes (DataStr, Length * 2, (UINT8 *) (Vendor + 1), Length);
return (EFI_DEVICE_PATH_PROTOCOL *) Vendor;
}
/**
Converts a text device path node to Vendor Hardware device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Vendor Hardware device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenHw (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextVendor (
TextDeviceNode,
HARDWARE_DEVICE_PATH,
HW_VENDOR_DP
);
}
/**
Converts a text device path node to Hardware Controller device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Hardware Controller device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextCtrl (
CHAR16 *TextDeviceNode
)
{
CHAR16 *ControllerStr;
CONTROLLER_DEVICE_PATH *Controller;
ControllerStr = GetNextParamStr (&TextDeviceNode);
Controller = (CONTROLLER_DEVICE_PATH *) CreateDeviceNode (
HARDWARE_DEVICE_PATH,
HW_CONTROLLER_DP,
(UINT16) sizeof (CONTROLLER_DEVICE_PATH)
);
Controller->ControllerNumber = (UINT32) Strtoi (ControllerStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Controller;
}
/**
Converts a text device path node to BMC device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created BMC device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBmc (
CHAR16 *TextDeviceNode
)
{
CHAR16 *InterfaceTypeStr;
CHAR16 *BaseAddressStr;
BMC_DEVICE_PATH *BmcDp;
InterfaceTypeStr = GetNextParamStr (&TextDeviceNode);
BaseAddressStr = GetNextParamStr (&TextDeviceNode);
BmcDp = (BMC_DEVICE_PATH *) CreateDeviceNode (
HARDWARE_DEVICE_PATH,
HW_BMC_DP,
(UINT16) sizeof (BMC_DEVICE_PATH)
);
BmcDp->InterfaceType = (UINT8) Strtoi (InterfaceTypeStr);
WriteUnaligned64 (
(UINT64 *) (&BmcDp->BaseAddress),
StrHexToUint64 (BaseAddressStr)
);
return (EFI_DEVICE_PATH_PROTOCOL *) BmcDp;
}
/**
Converts a generic ACPI text device path node to ACPI device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to ACPI device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpiPath (
CHAR16 *TextDeviceNode
)
{
return DevPathFromTextGenericPath (ACPI_DEVICE_PATH, TextDeviceNode);
}
/**
Converts a string to EisaId.
@param Text The input string.
@return UINT32 EISA ID.
**/
UINT32
EisaIdFromText (
CHAR16 *Text
)
{
return (((Text[0] - 'A' + 1) & 0x1f) << 10)
+ (((Text[1] - 'A' + 1) & 0x1f) << 5)
+ (((Text[2] - 'A' + 1) & 0x1f) << 0)
+ (UINT32) (StrHexToUint64 (&Text[3]) << 16)
;
}
/**
Converts a text device path node to ACPI HID device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created ACPI HID device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpi (
CHAR16 *TextDeviceNode
)
{
CHAR16 *HIDStr;
CHAR16 *UIDStr;
ACPI_HID_DEVICE_PATH *Acpi;
HIDStr = GetNextParamStr (&TextDeviceNode);
UIDStr = GetNextParamStr (&TextDeviceNode);
Acpi = (ACPI_HID_DEVICE_PATH *) CreateDeviceNode (
ACPI_DEVICE_PATH,
ACPI_DP,
(UINT16) sizeof (ACPI_HID_DEVICE_PATH)
);
Acpi->HID = EisaIdFromText (HIDStr);
Acpi->UID = (UINT32) Strtoi (UIDStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Acpi;
}
/**
Converts a text device path node to ACPI HID device path structure.
@param TextDeviceNode The input Text device path node.
@param PnPId The input plug and play identification.
@return A pointer to the newly-created ACPI HID device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
ConvertFromTextAcpi (
CHAR16 *TextDeviceNode,
UINT32 PnPId
)
{
CHAR16 *UIDStr;
ACPI_HID_DEVICE_PATH *Acpi;
UIDStr = GetNextParamStr (&TextDeviceNode);
Acpi = (ACPI_HID_DEVICE_PATH *) CreateDeviceNode (
ACPI_DEVICE_PATH,
ACPI_DP,
(UINT16) sizeof (ACPI_HID_DEVICE_PATH)
);
Acpi->HID = EFI_PNP_ID (PnPId);
Acpi->UID = (UINT32) Strtoi (UIDStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Acpi;
}
/**
Converts a text device path node to PCI root device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created PCI root device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPciRoot (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextAcpi (TextDeviceNode, 0x0a03);
}
/**
Converts a text device path node to PCIE root device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created PCIE root device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPcieRoot (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextAcpi (TextDeviceNode, 0x0a08);
}
/**
Converts a text device path node to Floppy device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Floppy device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFloppy (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextAcpi (TextDeviceNode, 0x0604);
}
/**
Converts a text device path node to Keyboard device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Keyboard device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextKeyboard (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextAcpi (TextDeviceNode, 0x0301);
}
/**
Converts a text device path node to Serial device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Serial device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSerial (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextAcpi (TextDeviceNode, 0x0501);
}
/**
Converts a text device path node to Parallel Port device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Parallel Port device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextParallelPort (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextAcpi (TextDeviceNode, 0x0401);
}
/**
Converts a text device path node to ACPI extension device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created ACPI extension device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpiEx (
CHAR16 *TextDeviceNode
)
{
CHAR16 *HIDStr;
CHAR16 *CIDStr;
CHAR16 *UIDStr;
CHAR16 *HIDSTRStr;
CHAR16 *CIDSTRStr;
CHAR16 *UIDSTRStr;
CHAR8 *AsciiStr;
UINT16 Length;
ACPI_EXTENDED_HID_DEVICE_PATH *AcpiEx;
HIDStr = GetNextParamStr (&TextDeviceNode);
CIDStr = GetNextParamStr (&TextDeviceNode);
UIDStr = GetNextParamStr (&TextDeviceNode);
HIDSTRStr = GetNextParamStr (&TextDeviceNode);
CIDSTRStr = GetNextParamStr (&TextDeviceNode);
UIDSTRStr = GetNextParamStr (&TextDeviceNode);
Length = (UINT16) (sizeof (ACPI_EXTENDED_HID_DEVICE_PATH) + StrLen (HIDSTRStr) + 1);
Length = (UINT16) (Length + StrLen (UIDSTRStr) + 1);
Length = (UINT16) (Length + StrLen (CIDSTRStr) + 1);
AcpiEx = (ACPI_EXTENDED_HID_DEVICE_PATH *) CreateDeviceNode (
ACPI_DEVICE_PATH,
ACPI_EXTENDED_DP,
Length
);
AcpiEx->HID = EisaIdFromText (HIDStr);
AcpiEx->CID = EisaIdFromText (CIDStr);
AcpiEx->UID = (UINT32) Strtoi (UIDStr);
AsciiStr = (CHAR8 *) ((UINT8 *)AcpiEx + sizeof (ACPI_EXTENDED_HID_DEVICE_PATH));
StrToAscii (HIDSTRStr, &AsciiStr);
StrToAscii (UIDSTRStr, &AsciiStr);
StrToAscii (CIDSTRStr, &AsciiStr);
return (EFI_DEVICE_PATH_PROTOCOL *) AcpiEx;
}
/**
Converts a text device path node to ACPI extension device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created ACPI extension device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpiExp (
CHAR16 *TextDeviceNode
)
{
CHAR16 *HIDStr;
CHAR16 *CIDStr;
CHAR16 *UIDSTRStr;
CHAR8 *AsciiStr;
UINT16 Length;
ACPI_EXTENDED_HID_DEVICE_PATH *AcpiEx;
HIDStr = GetNextParamStr (&TextDeviceNode);
CIDStr = GetNextParamStr (&TextDeviceNode);
UIDSTRStr = GetNextParamStr (&TextDeviceNode);
Length = (UINT16) (sizeof (ACPI_EXTENDED_HID_DEVICE_PATH) + StrLen (UIDSTRStr) + 3);
AcpiEx = (ACPI_EXTENDED_HID_DEVICE_PATH *) CreateDeviceNode (
ACPI_DEVICE_PATH,
ACPI_EXTENDED_DP,
Length
);
AcpiEx->HID = EisaIdFromText (HIDStr);
//
// According to UEFI spec, the CID parametr is optional and has a default value of 0.
// So when the CID parametr is not specified or specified as 0 in the text device node.
// Set the CID to 0 in the ACPI extension device path structure.
//
if (*CIDStr == L'\0' || *CIDStr == L'0') {
AcpiEx->CID = 0;
} else {
AcpiEx->CID = EisaIdFromText (CIDStr);
}
AcpiEx->UID = 0;
AsciiStr = (CHAR8 *) ((UINT8 *)AcpiEx + sizeof (ACPI_EXTENDED_HID_DEVICE_PATH));
//
// HID string is NULL
//
*AsciiStr = '\0';
//
// Convert UID string
//
AsciiStr++;
StrToAscii (UIDSTRStr, &AsciiStr);
//
// CID string is NULL
//
*AsciiStr = '\0';
return (EFI_DEVICE_PATH_PROTOCOL *) AcpiEx;
}
/**
Converts a text device path node to ACPI _ADR device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created ACPI _ADR device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpiAdr (
CHAR16 *TextDeviceNode
)
{
CHAR16 *DisplayDeviceStr;
ACPI_ADR_DEVICE_PATH *AcpiAdr;
UINTN Index;
UINTN Length;
AcpiAdr = (ACPI_ADR_DEVICE_PATH *) CreateDeviceNode (
ACPI_DEVICE_PATH,
ACPI_ADR_DP,
(UINT16) sizeof (ACPI_ADR_DEVICE_PATH)
);
ASSERT (AcpiAdr != NULL);
for (Index = 0; ; Index++) {
DisplayDeviceStr = GetNextParamStr (&TextDeviceNode);
if (IS_NULL (*DisplayDeviceStr)) {
break;
}
if (Index > 0) {
Length = DevicePathNodeLength (AcpiAdr);
AcpiAdr = ReallocatePool (
Length,
Length + sizeof (UINT32),
AcpiAdr
);
ASSERT (AcpiAdr != NULL);
SetDevicePathNodeLength (AcpiAdr, Length + sizeof (UINT32));
}
(&AcpiAdr->ADR)[Index] = (UINT32) Strtoi (DisplayDeviceStr);
}
return (EFI_DEVICE_PATH_PROTOCOL *) AcpiAdr;
}
/**
Converts a generic messaging text device path node to messaging device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to messaging device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMsg (
CHAR16 *TextDeviceNode
)
{
return DevPathFromTextGenericPath (MESSAGING_DEVICE_PATH, TextDeviceNode);
}
/**
Converts a text device path node to Parallel Port device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Parallel Port device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAta (
CHAR16 *TextDeviceNode
)
{
CHAR16 *PrimarySecondaryStr;
CHAR16 *SlaveMasterStr;
CHAR16 *LunStr;
ATAPI_DEVICE_PATH *Atapi;
Atapi = (ATAPI_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_ATAPI_DP,
(UINT16) sizeof (ATAPI_DEVICE_PATH)
);
PrimarySecondaryStr = GetNextParamStr (&TextDeviceNode);
SlaveMasterStr = GetNextParamStr (&TextDeviceNode);
LunStr = GetNextParamStr (&TextDeviceNode);
if (StrCmp (PrimarySecondaryStr, L"Primary") == 0) {
Atapi->PrimarySecondary = 0;
} else if (StrCmp (PrimarySecondaryStr, L"Secondary") == 0) {
Atapi->PrimarySecondary = 1;
} else {
Atapi->PrimarySecondary = (UINT8) Strtoi (PrimarySecondaryStr);
}
if (StrCmp (SlaveMasterStr, L"Master") == 0) {
Atapi->SlaveMaster = 0;
} else if (StrCmp (SlaveMasterStr, L"Slave") == 0) {
Atapi->SlaveMaster = 1;
} else {
Atapi->SlaveMaster = (UINT8) Strtoi (SlaveMasterStr);
}
Atapi->Lun = (UINT16) Strtoi (LunStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Atapi;
}
/**
Converts a text device path node to SCSI device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created SCSI device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextScsi (
CHAR16 *TextDeviceNode
)
{
CHAR16 *PunStr;
CHAR16 *LunStr;
SCSI_DEVICE_PATH *Scsi;
PunStr = GetNextParamStr (&TextDeviceNode);
LunStr = GetNextParamStr (&TextDeviceNode);
Scsi = (SCSI_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_SCSI_DP,
(UINT16) sizeof (SCSI_DEVICE_PATH)
);
Scsi->Pun = (UINT16) Strtoi (PunStr);
Scsi->Lun = (UINT16) Strtoi (LunStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Scsi;
}
/**
Converts a text device path node to Fibre device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Fibre device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFibre (
CHAR16 *TextDeviceNode
)
{
CHAR16 *WWNStr;
CHAR16 *LunStr;
FIBRECHANNEL_DEVICE_PATH *Fibre;
WWNStr = GetNextParamStr (&TextDeviceNode);
LunStr = GetNextParamStr (&TextDeviceNode);
Fibre = (FIBRECHANNEL_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_FIBRECHANNEL_DP,
(UINT16) sizeof (FIBRECHANNEL_DEVICE_PATH)
);
Fibre->Reserved = 0;
Strtoi64 (WWNStr, &Fibre->WWN);
Strtoi64 (LunStr, &Fibre->Lun);
return (EFI_DEVICE_PATH_PROTOCOL *) Fibre;
}
/**
Converts a text device path node to FibreEx device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created FibreEx device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFibreEx (
CHAR16 *TextDeviceNode
)
{
CHAR16 *WWNStr;
CHAR16 *LunStr;
FIBRECHANNELEX_DEVICE_PATH *FibreEx;
WWNStr = GetNextParamStr (&TextDeviceNode);
LunStr = GetNextParamStr (&TextDeviceNode);
FibreEx = (FIBRECHANNELEX_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_FIBRECHANNELEX_DP,
(UINT16) sizeof (FIBRECHANNELEX_DEVICE_PATH)
);
FibreEx->Reserved = 0;
Strtoi64 (WWNStr, (UINT64 *) (&FibreEx->WWN));
Strtoi64 (LunStr, (UINT64 *) (&FibreEx->Lun));
*(UINT64 *) (&FibreEx->WWN) = SwapBytes64 (*(UINT64 *) (&FibreEx->WWN));
*(UINT64 *) (&FibreEx->Lun) = SwapBytes64 (*(UINT64 *) (&FibreEx->Lun));
return (EFI_DEVICE_PATH_PROTOCOL *) FibreEx;
}
/**
Converts a text device path node to 1394 device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created 1394 device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromText1394 (
CHAR16 *TextDeviceNode
)
{
CHAR16 *GuidStr;
F1394_DEVICE_PATH *F1394DevPath;
GuidStr = GetNextParamStr (&TextDeviceNode);
F1394DevPath = (F1394_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_1394_DP,
(UINT16) sizeof (F1394_DEVICE_PATH)
);
F1394DevPath->Reserved = 0;
F1394DevPath->Guid = StrHexToUint64 (GuidStr);
return (EFI_DEVICE_PATH_PROTOCOL *) F1394DevPath;
}
/**
Converts a text device path node to USB device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsb (
CHAR16 *TextDeviceNode
)
{
CHAR16 *PortStr;
CHAR16 *InterfaceStr;
USB_DEVICE_PATH *Usb;
PortStr = GetNextParamStr (&TextDeviceNode);
InterfaceStr = GetNextParamStr (&TextDeviceNode);
Usb = (USB_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_USB_DP,
(UINT16) sizeof (USB_DEVICE_PATH)
);
Usb->ParentPortNumber = (UINT8) Strtoi (PortStr);
Usb->InterfaceNumber = (UINT8) Strtoi (InterfaceStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Usb;
}
/**
Converts a text device path node to I20 device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created I20 device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextI2O (
CHAR16 *TextDeviceNode
)
{
CHAR16 *TIDStr;
I2O_DEVICE_PATH *I2ODevPath;
TIDStr = GetNextParamStr (&TextDeviceNode);
I2ODevPath = (I2O_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_I2O_DP,
(UINT16) sizeof (I2O_DEVICE_PATH)
);
I2ODevPath->Tid = (UINT32) Strtoi (TIDStr);
return (EFI_DEVICE_PATH_PROTOCOL *) I2ODevPath;
}
/**
Converts a text device path node to Infini Band device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Infini Band device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextInfiniband (
CHAR16 *TextDeviceNode
)
{
CHAR16 *FlagsStr;
CHAR16 *GuidStr;
CHAR16 *SidStr;
CHAR16 *TidStr;
CHAR16 *DidStr;
INFINIBAND_DEVICE_PATH *InfiniBand;
FlagsStr = GetNextParamStr (&TextDeviceNode);
GuidStr = GetNextParamStr (&TextDeviceNode);
SidStr = GetNextParamStr (&TextDeviceNode);
TidStr = GetNextParamStr (&TextDeviceNode);
DidStr = GetNextParamStr (&TextDeviceNode);
InfiniBand = (INFINIBAND_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_INFINIBAND_DP,
(UINT16) sizeof (INFINIBAND_DEVICE_PATH)
);
InfiniBand->ResourceFlags = (UINT32) Strtoi (FlagsStr);
StrToGuid (GuidStr, (EFI_GUID *) InfiniBand->PortGid);
Strtoi64 (SidStr, &InfiniBand->ServiceId);
Strtoi64 (TidStr, &InfiniBand->TargetPortId);
Strtoi64 (DidStr, &InfiniBand->DeviceId);
return (EFI_DEVICE_PATH_PROTOCOL *) InfiniBand;
}
/**
Converts a text device path node to Vendor-Defined Messaging device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Vendor-Defined Messaging device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenMsg (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextVendor (
TextDeviceNode,
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP
);
}
/**
Converts a text device path node to Vendor defined PC-ANSI device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Vendor defined PC-ANSI device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenPcAnsi (
CHAR16 *TextDeviceNode
)
{
VENDOR_DEVICE_PATH *Vendor;
Vendor = (VENDOR_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
(UINT16) sizeof (VENDOR_DEVICE_PATH));
CopyGuid (&Vendor->Guid, &gEfiPcAnsiGuid);
return (EFI_DEVICE_PATH_PROTOCOL *) Vendor;
}
/**
Converts a text device path node to Vendor defined VT100 device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Vendor defined VT100 device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenVt100 (
CHAR16 *TextDeviceNode
)
{
VENDOR_DEVICE_PATH *Vendor;
Vendor = (VENDOR_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
(UINT16) sizeof (VENDOR_DEVICE_PATH));
CopyGuid (&Vendor->Guid, &gEfiVT100Guid);
return (EFI_DEVICE_PATH_PROTOCOL *) Vendor;
}
/**
Converts a text device path node to Vendor defined VT100 Plus device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Vendor defined VT100 Plus device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenVt100Plus (
CHAR16 *TextDeviceNode
)
{
VENDOR_DEVICE_PATH *Vendor;
Vendor = (VENDOR_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
(UINT16) sizeof (VENDOR_DEVICE_PATH));
CopyGuid (&Vendor->Guid, &gEfiVT100PlusGuid);
return (EFI_DEVICE_PATH_PROTOCOL *) Vendor;
}
/**
Converts a text device path node to Vendor defined UTF8 device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Vendor defined UTF8 device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenUtf8 (
CHAR16 *TextDeviceNode
)
{
VENDOR_DEVICE_PATH *Vendor;
Vendor = (VENDOR_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
(UINT16) sizeof (VENDOR_DEVICE_PATH));
CopyGuid (&Vendor->Guid, &gEfiVTUTF8Guid);
return (EFI_DEVICE_PATH_PROTOCOL *) Vendor;
}
/**
Converts a text device path node to UART Flow Control device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created UART Flow Control device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUartFlowCtrl (
CHAR16 *TextDeviceNode
)
{
CHAR16 *ValueStr;
UART_FLOW_CONTROL_DEVICE_PATH *UartFlowControl;
ValueStr = GetNextParamStr (&TextDeviceNode);
UartFlowControl = (UART_FLOW_CONTROL_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
(UINT16) sizeof (UART_FLOW_CONTROL_DEVICE_PATH)
);
CopyGuid (&UartFlowControl->Guid, &gEfiUartDevicePathGuid);
if (StrCmp (ValueStr, L"XonXoff") == 0) {
UartFlowControl->FlowControlMap = 2;
} else if (StrCmp (ValueStr, L"Hardware") == 0) {
UartFlowControl->FlowControlMap = 1;
} else {
UartFlowControl->FlowControlMap = 0;
}
return (EFI_DEVICE_PATH_PROTOCOL *) UartFlowControl;
}
/**
Converts a text device path node to Serial Attached SCSI device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Serial Attached SCSI device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSAS (
CHAR16 *TextDeviceNode
)
{
CHAR16 *AddressStr;
CHAR16 *LunStr;
CHAR16 *RTPStr;
CHAR16 *SASSATAStr;
CHAR16 *LocationStr;
CHAR16 *ConnectStr;
CHAR16 *DriveBayStr;
CHAR16 *ReservedStr;
UINT16 Info;
UINT16 Uint16;
SAS_DEVICE_PATH *Sas;
AddressStr = GetNextParamStr (&TextDeviceNode);
LunStr = GetNextParamStr (&TextDeviceNode);
RTPStr = GetNextParamStr (&TextDeviceNode);
SASSATAStr = GetNextParamStr (&TextDeviceNode);
LocationStr = GetNextParamStr (&TextDeviceNode);
ConnectStr = GetNextParamStr (&TextDeviceNode);
DriveBayStr = GetNextParamStr (&TextDeviceNode);
ReservedStr = GetNextParamStr (&TextDeviceNode);
Sas = (SAS_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
(UINT16) sizeof (SAS_DEVICE_PATH)
);
CopyGuid (&Sas->Guid, &gEfiSasDevicePathGuid);
Strtoi64 (AddressStr, &Sas->SasAddress);
Strtoi64 (LunStr, &Sas->Lun);
Sas->RelativeTargetPort = (UINT16) Strtoi (RTPStr);
if (StrCmp (SASSATAStr, L"NoTopology") == 0) {
Info = 0x0;
} else if ((StrCmp (SASSATAStr, L"SATA") == 0) || (StrCmp (SASSATAStr, L"SAS") == 0)) {
Uint16 = (UINT16) Strtoi (DriveBayStr);
if (Uint16 == 0) {
Info = 0x1;
} else {
Info = (UINT16) (0x2 | ((Uint16 - 1) << 8));
}
if (StrCmp (SASSATAStr, L"SATA") == 0) {
Info |= BIT4;
}
//
// Location is an integer between 0 and 1 or else
// the keyword Internal (0) or External (1).
//
if (StrCmp (LocationStr, L"External") == 0) {
Uint16 = 1;
} else if (StrCmp (LocationStr, L"Internal") == 0) {
Uint16 = 0;
} else {
Uint16 = ((UINT16) Strtoi (LocationStr) & BIT0);
}
Info |= (Uint16 << 5);
//
// Connect is an integer between 0 and 3 or else
// the keyword Direct (0) or Expanded (1).
//
if (StrCmp (ConnectStr, L"Expanded") == 0) {
Uint16 = 1;
} else if (StrCmp (ConnectStr, L"Direct") == 0) {
Uint16 = 0;
} else {
Uint16 = ((UINT16) Strtoi (ConnectStr) & (BIT0 | BIT1));
}
Info |= (Uint16 << 6);
} else {
Info = (UINT16) Strtoi (SASSATAStr);
}
Sas->DeviceTopology = Info;
Sas->Reserved = (UINT32) Strtoi (ReservedStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Sas;
}
/**
Converts a text device path node to Serial Attached SCSI Ex device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Serial Attached SCSI Ex device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSasEx (
CHAR16 *TextDeviceNode
)
{
CHAR16 *AddressStr;
CHAR16 *LunStr;
CHAR16 *RTPStr;
CHAR16 *SASSATAStr;
CHAR16 *LocationStr;
CHAR16 *ConnectStr;
CHAR16 *DriveBayStr;
UINT16 Info;
UINT16 Uint16;
UINT64 SasAddress;
UINT64 Lun;
SASEX_DEVICE_PATH *SasEx;
AddressStr = GetNextParamStr (&TextDeviceNode);
LunStr = GetNextParamStr (&TextDeviceNode);
RTPStr = GetNextParamStr (&TextDeviceNode);
SASSATAStr = GetNextParamStr (&TextDeviceNode);
LocationStr = GetNextParamStr (&TextDeviceNode);
ConnectStr = GetNextParamStr (&TextDeviceNode);
DriveBayStr = GetNextParamStr (&TextDeviceNode);
SasEx = (SASEX_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_SASEX_DP,
(UINT16) sizeof (SASEX_DEVICE_PATH)
);
Strtoi64 (AddressStr, &SasAddress);
Strtoi64 (LunStr, &Lun);
WriteUnaligned64 ((UINT64 *) &SasEx->SasAddress, SwapBytes64 (SasAddress));
WriteUnaligned64 ((UINT64 *) &SasEx->Lun, SwapBytes64 (Lun));
SasEx->RelativeTargetPort = (UINT16) Strtoi (RTPStr);
if (StrCmp (SASSATAStr, L"NoTopology") == 0) {
Info = 0x0;
} else if ((StrCmp (SASSATAStr, L"SATA") == 0) || (StrCmp (SASSATAStr, L"SAS") == 0)) {
Uint16 = (UINT16) Strtoi (DriveBayStr);
if (Uint16 == 0) {
Info = 0x1;
} else {
Info = (UINT16) (0x2 | ((Uint16 - 1) << 8));
}
if (StrCmp (SASSATAStr, L"SATA") == 0) {
Info |= BIT4;
}
//
// Location is an integer between 0 and 1 or else
// the keyword Internal (0) or External (1).
//
if (StrCmp (LocationStr, L"External") == 0) {
Uint16 = 1;
} else if (StrCmp (LocationStr, L"Internal") == 0) {
Uint16 = 0;
} else {
Uint16 = ((UINT16) Strtoi (LocationStr) & BIT0);
}
Info |= (Uint16 << 5);
//
// Connect is an integer between 0 and 3 or else
// the keyword Direct (0) or Expanded (1).
//
if (StrCmp (ConnectStr, L"Expanded") == 0) {
Uint16 = 1;
} else if (StrCmp (ConnectStr, L"Direct") == 0) {
Uint16 = 0;
} else {
Uint16 = ((UINT16) Strtoi (ConnectStr) & (BIT0 | BIT1));
}
Info |= (Uint16 << 6);
} else {
Info = (UINT16) Strtoi (SASSATAStr);
}
SasEx->DeviceTopology = Info;
return (EFI_DEVICE_PATH_PROTOCOL *) SasEx;
}
/**
Converts a text device path node to NVM Express Namespace device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created NVM Express Namespace device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextNVMe (
CHAR16 *TextDeviceNode
)
{
CHAR16 *NamespaceIdStr;
CHAR16 *NamespaceUuidStr;
NVME_NAMESPACE_DEVICE_PATH *Nvme;
UINT8 *Uuid;
UINTN Index;
NamespaceIdStr = GetNextParamStr (&TextDeviceNode);
NamespaceUuidStr = GetNextParamStr (&TextDeviceNode);
Nvme = (NVME_NAMESPACE_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_NVME_NAMESPACE_DP,
(UINT16) sizeof (NVME_NAMESPACE_DEVICE_PATH)
);
Nvme->NamespaceId = (UINT32) Strtoi (NamespaceIdStr);
Uuid = (UINT8 *) &Nvme->NamespaceUuid;
Index = sizeof (Nvme->NamespaceUuid) / sizeof (UINT8);
while (Index-- != 0) {
Uuid[Index] = (UINT8) StrHexToUint64 (SplitStr (&NamespaceUuidStr, L'-'));
}
return (EFI_DEVICE_PATH_PROTOCOL *) Nvme;
}
/**
Converts a text device path node to UFS device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created UFS device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUfs (
CHAR16 *TextDeviceNode
)
{
CHAR16 *PunStr;
CHAR16 *LunStr;
UFS_DEVICE_PATH *Ufs;
PunStr = GetNextParamStr (&TextDeviceNode);
LunStr = GetNextParamStr (&TextDeviceNode);
Ufs = (UFS_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_UFS_DP,
(UINT16) sizeof (UFS_DEVICE_PATH)
);
Ufs->Pun = (UINT8) Strtoi (PunStr);
Ufs->Lun = (UINT8) Strtoi (LunStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Ufs;
}
/**
Converts a text device path node to SD (Secure Digital) device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created SD device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSd (
CHAR16 *TextDeviceNode
)
{
CHAR16 *SlotNumberStr;
SD_DEVICE_PATH *Sd;
SlotNumberStr = GetNextParamStr (&TextDeviceNode);
Sd = (SD_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_SD_DP,
(UINT16) sizeof (SD_DEVICE_PATH)
);
Sd->SlotNumber = (UINT8) Strtoi (SlotNumberStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Sd;
}
/**
Converts a text device path node to EMMC (Embedded MMC) device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created EMMC device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextEmmc (
CHAR16 *TextDeviceNode
)
{
CHAR16 *SlotNumberStr;
EMMC_DEVICE_PATH *Emmc;
SlotNumberStr = GetNextParamStr (&TextDeviceNode);
Emmc = (EMMC_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_EMMC_DP,
(UINT16) sizeof (EMMC_DEVICE_PATH)
);
Emmc->SlotNumber = (UINT8) Strtoi (SlotNumberStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Emmc;
}
/**
Converts a text device path node to Debug Port device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Debug Port device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextDebugPort (
CHAR16 *TextDeviceNode
)
{
VENDOR_DEVICE_PATH *Vend;
Vend = (VENDOR_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
(UINT16) sizeof (VENDOR_DEVICE_PATH)
);
CopyGuid (&Vend->Guid, &gEfiDebugPortProtocolGuid);
return (EFI_DEVICE_PATH_PROTOCOL *) Vend;
}
/**
Converts a text device path node to MAC device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created MAC device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMAC (
CHAR16 *TextDeviceNode
)
{
CHAR16 *AddressStr;
CHAR16 *IfTypeStr;
UINTN Length;
MAC_ADDR_DEVICE_PATH *MACDevPath;
AddressStr = GetNextParamStr (&TextDeviceNode);
IfTypeStr = GetNextParamStr (&TextDeviceNode);
MACDevPath = (MAC_ADDR_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_MAC_ADDR_DP,
(UINT16) sizeof (MAC_ADDR_DEVICE_PATH)
);
MACDevPath->IfType = (UINT8) Strtoi (IfTypeStr);
Length = sizeof (EFI_MAC_ADDRESS);
if (MACDevPath->IfType == 0x01 || MACDevPath->IfType == 0x00) {
Length = 6;
}
StrHexToBytes (AddressStr, Length * 2, MACDevPath->MacAddress.Addr, Length);
return (EFI_DEVICE_PATH_PROTOCOL *) MACDevPath;
}
/**
Converts a text format to the network protocol ID.
@param Text String of protocol field.
@return Network protocol ID .
**/
UINTN
NetworkProtocolFromText (
CHAR16 *Text
)
{
if (StrCmp (Text, L"UDP") == 0) {
return RFC_1700_UDP_PROTOCOL;
}
if (StrCmp (Text, L"TCP") == 0) {
return RFC_1700_TCP_PROTOCOL;
}
return Strtoi (Text);
}
/**
Converts a text device path node to IPV4 device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created IPV4 device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextIPv4 (
CHAR16 *TextDeviceNode
)
{
CHAR16 *RemoteIPStr;
CHAR16 *ProtocolStr;
CHAR16 *TypeStr;
CHAR16 *LocalIPStr;
CHAR16 *GatewayIPStr;
CHAR16 *SubnetMaskStr;
IPv4_DEVICE_PATH *IPv4;
RemoteIPStr = GetNextParamStr (&TextDeviceNode);
ProtocolStr = GetNextParamStr (&TextDeviceNode);
TypeStr = GetNextParamStr (&TextDeviceNode);
LocalIPStr = GetNextParamStr (&TextDeviceNode);
GatewayIPStr = GetNextParamStr (&TextDeviceNode);
SubnetMaskStr = GetNextParamStr (&TextDeviceNode);
IPv4 = (IPv4_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_IPv4_DP,
(UINT16) sizeof (IPv4_DEVICE_PATH)
);
StrToIpv4Address (RemoteIPStr, NULL, &IPv4->RemoteIpAddress, NULL);
IPv4->Protocol = (UINT16) NetworkProtocolFromText (ProtocolStr);
if (StrCmp (TypeStr, L"Static") == 0) {
IPv4->StaticIpAddress = TRUE;
} else {
IPv4->StaticIpAddress = FALSE;
}
StrToIpv4Address (LocalIPStr, NULL, &IPv4->LocalIpAddress, NULL);
if (!IS_NULL (*GatewayIPStr) && !IS_NULL (*SubnetMaskStr)) {
StrToIpv4Address (GatewayIPStr, NULL, &IPv4->GatewayIpAddress, NULL);
StrToIpv4Address (SubnetMaskStr, NULL, &IPv4->SubnetMask, NULL);
} else {
ZeroMem (&IPv4->GatewayIpAddress, sizeof (IPv4->GatewayIpAddress));
ZeroMem (&IPv4->SubnetMask, sizeof (IPv4->SubnetMask));
}
IPv4->LocalPort = 0;
IPv4->RemotePort = 0;
return (EFI_DEVICE_PATH_PROTOCOL *) IPv4;
}
/**
Converts a text device path node to IPV6 device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created IPV6 device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextIPv6 (
CHAR16 *TextDeviceNode
)
{
CHAR16 *RemoteIPStr;
CHAR16 *ProtocolStr;
CHAR16 *TypeStr;
CHAR16 *LocalIPStr;
CHAR16 *GatewayIPStr;
CHAR16 *PrefixLengthStr;
IPv6_DEVICE_PATH *IPv6;
RemoteIPStr = GetNextParamStr (&TextDeviceNode);
ProtocolStr = GetNextParamStr (&TextDeviceNode);
TypeStr = GetNextParamStr (&TextDeviceNode);
LocalIPStr = GetNextParamStr (&TextDeviceNode);
PrefixLengthStr = GetNextParamStr (&TextDeviceNode);
GatewayIPStr = GetNextParamStr (&TextDeviceNode);
IPv6 = (IPv6_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_IPv6_DP,
(UINT16) sizeof (IPv6_DEVICE_PATH)
);
StrToIpv6Address (RemoteIPStr, NULL, &IPv6->RemoteIpAddress, NULL);
IPv6->Protocol = (UINT16) NetworkProtocolFromText (ProtocolStr);
if (StrCmp (TypeStr, L"Static") == 0) {
IPv6->IpAddressOrigin = 0;
} else if (StrCmp (TypeStr, L"StatelessAutoConfigure") == 0) {
IPv6->IpAddressOrigin = 1;
} else {
IPv6->IpAddressOrigin = 2;
}
StrToIpv6Address (LocalIPStr, NULL, &IPv6->LocalIpAddress, NULL);
if (!IS_NULL (*GatewayIPStr) && !IS_NULL (*PrefixLengthStr)) {
StrToIpv6Address (GatewayIPStr, NULL, &IPv6->GatewayIpAddress, NULL);
IPv6->PrefixLength = (UINT8) Strtoi (PrefixLengthStr);
} else {
ZeroMem (&IPv6->GatewayIpAddress, sizeof (IPv6->GatewayIpAddress));
IPv6->PrefixLength = 0;
}
IPv6->LocalPort = 0;
IPv6->RemotePort = 0;
return (EFI_DEVICE_PATH_PROTOCOL *) IPv6;
}
/**
Converts a text device path node to UART device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created UART device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUart (
CHAR16 *TextDeviceNode
)
{
CHAR16 *BaudStr;
CHAR16 *DataBitsStr;
CHAR16 *ParityStr;
CHAR16 *StopBitsStr;
UART_DEVICE_PATH *Uart;
BaudStr = GetNextParamStr (&TextDeviceNode);
DataBitsStr = GetNextParamStr (&TextDeviceNode);
ParityStr = GetNextParamStr (&TextDeviceNode);
StopBitsStr = GetNextParamStr (&TextDeviceNode);
Uart = (UART_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_UART_DP,
(UINT16) sizeof (UART_DEVICE_PATH)
);
if (StrCmp (BaudStr, L"DEFAULT") == 0) {
Uart->BaudRate = 115200;
} else {
Strtoi64 (BaudStr, &Uart->BaudRate);
}
Uart->DataBits = (UINT8) ((StrCmp (DataBitsStr, L"DEFAULT") == 0) ? 8 : Strtoi (DataBitsStr));
switch (*ParityStr) {
case L'D':
Uart->Parity = 0;
break;
case L'N':
Uart->Parity = 1;
break;
case L'E':
Uart->Parity = 2;
break;
case L'O':
Uart->Parity = 3;
break;
case L'M':
Uart->Parity = 4;
break;
case L'S':
Uart->Parity = 5;
break;
default:
Uart->Parity = (UINT8) Strtoi (ParityStr);
break;
}
if (StrCmp (StopBitsStr, L"D") == 0) {
Uart->StopBits = (UINT8) 0;
} else if (StrCmp (StopBitsStr, L"1") == 0) {
Uart->StopBits = (UINT8) 1;
} else if (StrCmp (StopBitsStr, L"1.5") == 0) {
Uart->StopBits = (UINT8) 2;
} else if (StrCmp (StopBitsStr, L"2") == 0) {
Uart->StopBits = (UINT8) 3;
} else {
Uart->StopBits = (UINT8) Strtoi (StopBitsStr);
}
return (EFI_DEVICE_PATH_PROTOCOL *) Uart;
}
/**
Converts a text device path node to USB class device path structure.
@param TextDeviceNode The input Text device path node.
@param UsbClassText A pointer to USB_CLASS_TEXT structure to be integrated to USB Class Text.
@return A pointer to the newly-created USB class device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
ConvertFromTextUsbClass (
CHAR16 *TextDeviceNode,
USB_CLASS_TEXT *UsbClassText
)
{
CHAR16 *VIDStr;
CHAR16 *PIDStr;
CHAR16 *ClassStr;
CHAR16 *SubClassStr;
CHAR16 *ProtocolStr;
USB_CLASS_DEVICE_PATH *UsbClass;
UsbClass = (USB_CLASS_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_USB_CLASS_DP,
(UINT16) sizeof (USB_CLASS_DEVICE_PATH)
);
VIDStr = GetNextParamStr (&TextDeviceNode);
PIDStr = GetNextParamStr (&TextDeviceNode);
if (UsbClassText->ClassExist) {
ClassStr = GetNextParamStr (&TextDeviceNode);
if (*ClassStr == L'\0') {
UsbClass->DeviceClass = 0xFF;
} else {
UsbClass->DeviceClass = (UINT8) Strtoi (ClassStr);
}
} else {
UsbClass->DeviceClass = UsbClassText->Class;
}
if (UsbClassText->SubClassExist) {
SubClassStr = GetNextParamStr (&TextDeviceNode);
if (*SubClassStr == L'\0') {
UsbClass->DeviceSubClass = 0xFF;
} else {
UsbClass->DeviceSubClass = (UINT8) Strtoi (SubClassStr);
}
} else {
UsbClass->DeviceSubClass = UsbClassText->SubClass;
}
ProtocolStr = GetNextParamStr (&TextDeviceNode);
if (*VIDStr == L'\0') {
UsbClass->VendorId = 0xFFFF;
} else {
UsbClass->VendorId = (UINT16) Strtoi (VIDStr);
}
if (*PIDStr == L'\0') {
UsbClass->ProductId = 0xFFFF;
} else {
UsbClass->ProductId = (UINT16) Strtoi (PIDStr);
}
if (*ProtocolStr == L'\0') {
UsbClass->DeviceProtocol = 0xFF;
} else {
UsbClass->DeviceProtocol = (UINT8) Strtoi (ProtocolStr);
}
return (EFI_DEVICE_PATH_PROTOCOL *) UsbClass;
}
/**
Converts a text device path node to USB class device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB class device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbClass (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = TRUE;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB audio device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB audio device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbAudio (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_AUDIO;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB CDC Control device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB CDC Control device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbCDCControl (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_CDCCONTROL;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB HID device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB HID device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbHID (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_HID;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB Image device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB Image device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbImage (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_IMAGE;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB Print device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB Print device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbPrinter (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_PRINTER;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB mass storage device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB mass storage device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbMassStorage (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_MASS_STORAGE;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB HUB device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB HUB device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbHub (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_HUB;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB CDC data device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB CDC data device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbCDCData (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_CDCDATA;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB smart card device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB smart card device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbSmartCard (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_SMART_CARD;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB video device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB video device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbVideo (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_VIDEO;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB diagnostic device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB diagnostic device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbDiagnostic (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_DIAGNOSTIC;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB wireless device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB wireless device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbWireless (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_WIRELESS;
UsbClassText.SubClassExist = TRUE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB device firmware update device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB device firmware update device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbDeviceFirmwareUpdate (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_RESERVE;
UsbClassText.SubClassExist = FALSE;
UsbClassText.SubClass = USB_SUBCLASS_FW_UPDATE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB IRDA bridge device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB IRDA bridge device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbIrdaBridge (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_RESERVE;
UsbClassText.SubClassExist = FALSE;
UsbClassText.SubClass = USB_SUBCLASS_IRDA_BRIDGE;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB text and measurement device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB text and measurement device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbTestAndMeasurement (
CHAR16 *TextDeviceNode
)
{
USB_CLASS_TEXT UsbClassText;
UsbClassText.ClassExist = FALSE;
UsbClassText.Class = USB_CLASS_RESERVE;
UsbClassText.SubClassExist = FALSE;
UsbClassText.SubClass = USB_SUBCLASS_TEST;
return ConvertFromTextUsbClass (TextDeviceNode, &UsbClassText);
}
/**
Converts a text device path node to USB WWID device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created USB WWID device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbWwid (
CHAR16 *TextDeviceNode
)
{
CHAR16 *VIDStr;
CHAR16 *PIDStr;
CHAR16 *InterfaceNumStr;
CHAR16 *SerialNumberStr;
USB_WWID_DEVICE_PATH *UsbWwid;
UINTN SerialNumberStrLen;
VIDStr = GetNextParamStr (&TextDeviceNode);
PIDStr = GetNextParamStr (&TextDeviceNode);
InterfaceNumStr = GetNextParamStr (&TextDeviceNode);
SerialNumberStr = GetNextParamStr (&TextDeviceNode);
SerialNumberStrLen = StrLen (SerialNumberStr);
if (SerialNumberStrLen >= 2 &&
SerialNumberStr[0] == L'\"' &&
SerialNumberStr[SerialNumberStrLen - 1] == L'\"'
) {
SerialNumberStr[SerialNumberStrLen - 1] = L'\0';
SerialNumberStr++;
SerialNumberStrLen -= 2;
}
UsbWwid = (USB_WWID_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_USB_WWID_DP,
(UINT16) (sizeof (USB_WWID_DEVICE_PATH) + SerialNumberStrLen * sizeof (CHAR16))
);
UsbWwid->VendorId = (UINT16) Strtoi (VIDStr);
UsbWwid->ProductId = (UINT16) Strtoi (PIDStr);
UsbWwid->InterfaceNumber = (UINT16) Strtoi (InterfaceNumStr);
//
// There is no memory allocated in UsbWwid for the '\0' in SerialNumberStr.
// Therefore, the '\0' will not be copied.
//
memcpy (
(UINT8 *) UsbWwid + sizeof (USB_WWID_DEVICE_PATH),
SerialNumberStr,
SerialNumberStrLen * sizeof (CHAR16)
);
return (EFI_DEVICE_PATH_PROTOCOL *) UsbWwid;
}
/**
Converts a text device path node to Logic Unit device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Logic Unit device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUnit (
CHAR16 *TextDeviceNode
)
{
CHAR16 *LunStr;
DEVICE_LOGICAL_UNIT_DEVICE_PATH *LogicalUnit;
LunStr = GetNextParamStr (&TextDeviceNode);
LogicalUnit = (DEVICE_LOGICAL_UNIT_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_DEVICE_LOGICAL_UNIT_DP,
(UINT16) sizeof (DEVICE_LOGICAL_UNIT_DEVICE_PATH)
);
LogicalUnit->Lun = (UINT8) Strtoi (LunStr);
return (EFI_DEVICE_PATH_PROTOCOL *) LogicalUnit;
}
/**
Converts a text device path node to iSCSI device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created iSCSI device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextiSCSI (
CHAR16 *TextDeviceNode
)
{
UINT16 Options;
CHAR16 *NameStr;
CHAR16 *PortalGroupStr;
CHAR16 *LunStr;
CHAR16 *HeaderDigestStr;
CHAR16 *DataDigestStr;
CHAR16 *AuthenticationStr;
CHAR16 *ProtocolStr;
CHAR8 *AsciiStr;
ISCSI_DEVICE_PATH_WITH_NAME *ISCSIDevPath;
UINT64 Lun;
NameStr = GetNextParamStr (&TextDeviceNode);
PortalGroupStr = GetNextParamStr (&TextDeviceNode);
LunStr = GetNextParamStr (&TextDeviceNode);
HeaderDigestStr = GetNextParamStr (&TextDeviceNode);
DataDigestStr = GetNextParamStr (&TextDeviceNode);
AuthenticationStr = GetNextParamStr (&TextDeviceNode);
ProtocolStr = GetNextParamStr (&TextDeviceNode);
ISCSIDevPath = (ISCSI_DEVICE_PATH_WITH_NAME *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_ISCSI_DP,
(UINT16) (sizeof (ISCSI_DEVICE_PATH_WITH_NAME) + StrLen (NameStr))
);
AsciiStr = ISCSIDevPath->TargetName;
StrToAscii (NameStr, &AsciiStr);
ISCSIDevPath->TargetPortalGroupTag = (UINT16) Strtoi (PortalGroupStr);
Strtoi64 (LunStr, &Lun);
WriteUnaligned64 ((UINT64 *) &ISCSIDevPath->Lun, SwapBytes64 (Lun));
Options = 0x0000;
if (StrCmp (HeaderDigestStr, L"CRC32C") == 0) {
Options |= 0x0002;
}
if (StrCmp (DataDigestStr, L"CRC32C") == 0) {
Options |= 0x0008;
}
if (StrCmp (AuthenticationStr, L"None") == 0) {
Options |= 0x0800;
}
if (StrCmp (AuthenticationStr, L"CHAP_UNI") == 0) {
Options |= 0x1000;
}
ISCSIDevPath->LoginOption = (UINT16) Options;
if (IS_NULL (*ProtocolStr) || (StrCmp (ProtocolStr, L"TCP") == 0)) {
ISCSIDevPath->NetworkProtocol = 0;
} else {
//
// Undefined and reserved.
//
ISCSIDevPath->NetworkProtocol = 1;
}
return (EFI_DEVICE_PATH_PROTOCOL *) ISCSIDevPath;
}
/**
Converts a text device path node to VLAN device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created VLAN device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVlan (
CHAR16 *TextDeviceNode
)
{
CHAR16 *VlanStr;
VLAN_DEVICE_PATH *Vlan;
VlanStr = GetNextParamStr (&TextDeviceNode);
Vlan = (VLAN_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VLAN_DP,
(UINT16) sizeof (VLAN_DEVICE_PATH)
);
Vlan->VlanId = (UINT16) Strtoi (VlanStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Vlan;
}
/**
Converts a text device path node to Bluetooth device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Bluetooth device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBluetooth (
CHAR16 *TextDeviceNode
)
{
CHAR16 *BluetoothStr;
BLUETOOTH_DEVICE_PATH *BluetoothDp;
BluetoothStr = GetNextParamStr (&TextDeviceNode);
BluetoothDp = (BLUETOOTH_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_BLUETOOTH_DP,
(UINT16) sizeof (BLUETOOTH_DEVICE_PATH)
);
StrHexToBytes (
BluetoothStr,
sizeof (BLUETOOTH_ADDRESS) * 2,
BluetoothDp->BD_ADDR.Address,
sizeof (BLUETOOTH_ADDRESS)
);
return (EFI_DEVICE_PATH_PROTOCOL *) BluetoothDp;
}
/**
Converts a text device path node to Wi-Fi device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Wi-Fi device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextWiFi (
CHAR16 *TextDeviceNode
)
{
CHAR16 *SSIdStr;
CHAR8 AsciiStr[33];
UINTN DataLen;
WIFI_DEVICE_PATH *WiFiDp;
SSIdStr = GetNextParamStr (&TextDeviceNode);
WiFiDp = (WIFI_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_WIFI_DP,
(UINT16) sizeof (WIFI_DEVICE_PATH)
);
if (NULL != SSIdStr) {
DataLen = StrLen (SSIdStr);
if (StrLen (SSIdStr) > 32) {
SSIdStr[32] = L'\0';
DataLen = 32;
}
UnicodeStrToAsciiStrS (SSIdStr, AsciiStr, sizeof (AsciiStr));
memcpy (WiFiDp->SSId, AsciiStr, DataLen);
}
return (EFI_DEVICE_PATH_PROTOCOL *) WiFiDp;
}
/**
Converts a text device path node to Bluetooth LE device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Bluetooth LE device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBluetoothLE (
IN CHAR16 *TextDeviceNode
)
{
CHAR16 *BluetoothLeAddrStr;
CHAR16 *BluetoothLeAddrTypeStr;
BLUETOOTH_LE_DEVICE_PATH *BluetoothLeDp;
BluetoothLeAddrStr = GetNextParamStr (&TextDeviceNode);
BluetoothLeAddrTypeStr = GetNextParamStr (&TextDeviceNode);
BluetoothLeDp = (BLUETOOTH_LE_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_BLUETOOTH_LE_DP,
(UINT16) sizeof (BLUETOOTH_LE_DEVICE_PATH)
);
BluetoothLeDp->Address.Type = (UINT8) Strtoi (BluetoothLeAddrTypeStr);
StrHexToBytes (
BluetoothLeAddrStr, sizeof (BluetoothLeDp->Address.Address) * 2,
BluetoothLeDp->Address.Address, sizeof (BluetoothLeDp->Address.Address)
);
return (EFI_DEVICE_PATH_PROTOCOL *) BluetoothLeDp;
}
/**
Converts a text device path node to DNS device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created DNS device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextDns (
IN CHAR16 *TextDeviceNode
)
{
CHAR16 *DeviceNodeStr;
CHAR16 *DeviceNodeStrPtr;
UINT32 DnsServerIpCount;
UINT16 DnsDeviceNodeLength;
DNS_DEVICE_PATH *DnsDeviceNode;
UINT32 DnsServerIpIndex;
CHAR16 *DnsServerIp;
//
// Count the DNS server address number.
//
DeviceNodeStr = UefiDevicePathLibStrDuplicate (TextDeviceNode);
if (DeviceNodeStr == NULL) {
return NULL;
}
DeviceNodeStrPtr = DeviceNodeStr;
DnsServerIpCount = 0;
while (DeviceNodeStrPtr != NULL && *DeviceNodeStrPtr != L'\0') {
GetNextParamStr (&DeviceNodeStrPtr);
DnsServerIpCount ++;
}
free (DeviceNodeStr);
DeviceNodeStr = NULL;
//
// One or more instances of the DNS server address in EFI_IP_ADDRESS,
// otherwise, NULL will be returned.
//
if (DnsServerIpCount == 0) {
return NULL;
}
//
// Create the DNS DeviceNode.
//
DnsDeviceNodeLength = (UINT16) (sizeof (EFI_DEVICE_PATH_PROTOCOL) + sizeof (UINT8) + DnsServerIpCount * sizeof (EFI_IP_ADDRESS));
DnsDeviceNode = (DNS_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_DNS_DP,
DnsDeviceNodeLength
);
if (DnsDeviceNode == NULL) {
return NULL;
}
//
// Confirm the DNS server address is IPv4 or IPv6 type.
//
DeviceNodeStrPtr = TextDeviceNode;
while (!IS_NULL (*DeviceNodeStrPtr)) {
if (*DeviceNodeStrPtr == L'.') {
DnsDeviceNode->IsIPv6 = 0x00;
break;
}
if (*DeviceNodeStrPtr == L':') {
DnsDeviceNode->IsIPv6 = 0x01;
break;
}
DeviceNodeStrPtr++;
}
for (DnsServerIpIndex = 0; DnsServerIpIndex < DnsServerIpCount; DnsServerIpIndex++) {
DnsServerIp = GetNextParamStr (&TextDeviceNode);
if (DnsDeviceNode->IsIPv6 == 0x00) {
StrToIpv4Address (DnsServerIp, NULL, &(DnsDeviceNode->DnsServerIp[DnsServerIpIndex].v4), NULL);
} else {
StrToIpv6Address (DnsServerIp, NULL, &(DnsDeviceNode->DnsServerIp[DnsServerIpIndex].v6), NULL);
}
}
return (EFI_DEVICE_PATH_PROTOCOL *) DnsDeviceNode;
}
/**
Converts a text device path node to URI device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created URI device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUri (
CHAR16 *TextDeviceNode
)
{
CHAR16 *UriStr;
UINTN UriLength;
URI_DEVICE_PATH *Uri;
UriStr = GetNextParamStr (&TextDeviceNode);
UriLength = StrnLenS (UriStr, MAX_UINT16 - sizeof (URI_DEVICE_PATH));
Uri = (URI_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_URI_DP,
(UINT16) (sizeof (URI_DEVICE_PATH) + UriLength)
);
while (UriLength-- != 0) {
Uri->Uri[UriLength] = (CHAR8) UriStr[UriLength];
}
return (EFI_DEVICE_PATH_PROTOCOL *) Uri;
}
/**
Converts a media text device path node to media device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to media device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMediaPath (
CHAR16 *TextDeviceNode
)
{
return DevPathFromTextGenericPath (MEDIA_DEVICE_PATH, TextDeviceNode);
}
/**
Converts a text device path node to HD device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created HD device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextHD (
CHAR16 *TextDeviceNode
)
{
CHAR16 *PartitionStr;
CHAR16 *TypeStr;
CHAR16 *SignatureStr;
CHAR16 *StartStr;
CHAR16 *SizeStr;
UINT32 Signature32;
HARDDRIVE_DEVICE_PATH *Hd;
PartitionStr = GetNextParamStr (&TextDeviceNode);
TypeStr = GetNextParamStr (&TextDeviceNode);
SignatureStr = GetNextParamStr (&TextDeviceNode);
StartStr = GetNextParamStr (&TextDeviceNode);
SizeStr = GetNextParamStr (&TextDeviceNode);
Hd = (HARDDRIVE_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_HARDDRIVE_DP,
(UINT16) sizeof (HARDDRIVE_DEVICE_PATH)
);
Hd->PartitionNumber = (UINT32) Strtoi (PartitionStr);
ZeroMem (Hd->Signature, 16);
Hd->MBRType = (UINT8) 0;
if (StrCmp (TypeStr, L"MBR") == 0) {
Hd->SignatureType = SIGNATURE_TYPE_MBR;
Hd->MBRType = 0x01;
Signature32 = (UINT32) Strtoi (SignatureStr);
memcpy (Hd->Signature, &Signature32, sizeof (UINT32));
} else if (StrCmp (TypeStr, L"GPT") == 0) {
Hd->SignatureType = SIGNATURE_TYPE_GUID;
Hd->MBRType = 0x02;
StrToGuid (SignatureStr, (EFI_GUID *) Hd->Signature);
} else {
Hd->SignatureType = (UINT8) Strtoi (TypeStr);
}
Strtoi64 (StartStr, &Hd->PartitionStart);
Strtoi64 (SizeStr, &Hd->PartitionSize);
return (EFI_DEVICE_PATH_PROTOCOL *) Hd;
}
/**
Converts a text device path node to CDROM device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created CDROM device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextCDROM (
CHAR16 *TextDeviceNode
)
{
CHAR16 *EntryStr;
CHAR16 *StartStr;
CHAR16 *SizeStr;
CDROM_DEVICE_PATH *CDROMDevPath;
EntryStr = GetNextParamStr (&TextDeviceNode);
StartStr = GetNextParamStr (&TextDeviceNode);
SizeStr = GetNextParamStr (&TextDeviceNode);
CDROMDevPath = (CDROM_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_CDROM_DP,
(UINT16) sizeof (CDROM_DEVICE_PATH)
);
CDROMDevPath->BootEntry = (UINT32) Strtoi (EntryStr);
Strtoi64 (StartStr, &CDROMDevPath->PartitionStart);
Strtoi64 (SizeStr, &CDROMDevPath->PartitionSize);
return (EFI_DEVICE_PATH_PROTOCOL *) CDROMDevPath;
}
/**
Converts a text device path node to Vendor-defined media device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Vendor-defined media device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenMedia (
CHAR16 *TextDeviceNode
)
{
return ConvertFromTextVendor (
TextDeviceNode,
MEDIA_DEVICE_PATH,
MEDIA_VENDOR_DP
);
}
/**
Converts a text device path node to File device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created File device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFilePath (
CHAR16 *TextDeviceNode
)
{
FILEPATH_DEVICE_PATH *File;
File = (FILEPATH_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_FILEPATH_DP,
(UINT16) (sizeof (FILEPATH_DEVICE_PATH) + StrLen (TextDeviceNode) * 2)
);
StrCpyS (File->PathName, StrLen (TextDeviceNode) + 1, TextDeviceNode);
return (EFI_DEVICE_PATH_PROTOCOL *) File;
}
/**
Converts a text device path node to Media protocol device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Media protocol device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMedia (
CHAR16 *TextDeviceNode
)
{
CHAR16 *GuidStr;
MEDIA_PROTOCOL_DEVICE_PATH *Media;
GuidStr = GetNextParamStr (&TextDeviceNode);
Media = (MEDIA_PROTOCOL_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_PROTOCOL_DP,
(UINT16) sizeof (MEDIA_PROTOCOL_DEVICE_PATH)
);
StrToGuid (GuidStr, &Media->Protocol);
return (EFI_DEVICE_PATH_PROTOCOL *) Media;
}
/**
Converts a text device path node to firmware volume device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created firmware volume device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFv (
CHAR16 *TextDeviceNode
)
{
CHAR16 *GuidStr;
MEDIA_FW_VOL_DEVICE_PATH *Fv;
GuidStr = GetNextParamStr (&TextDeviceNode);
Fv = (MEDIA_FW_VOL_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_PIWG_FW_VOL_DP,
(UINT16) sizeof (MEDIA_FW_VOL_DEVICE_PATH)
);
StrToGuid (GuidStr, &Fv->FvName);
return (EFI_DEVICE_PATH_PROTOCOL *) Fv;
}
/**
Converts a text device path node to firmware file device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created firmware file device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFvFile (
CHAR16 *TextDeviceNode
)
{
CHAR16 *GuidStr;
MEDIA_FW_VOL_FILEPATH_DEVICE_PATH *FvFile;
GuidStr = GetNextParamStr (&TextDeviceNode);
FvFile = (MEDIA_FW_VOL_FILEPATH_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_PIWG_FW_FILE_DP,
(UINT16) sizeof (MEDIA_FW_VOL_FILEPATH_DEVICE_PATH)
);
StrToGuid (GuidStr, &FvFile->FvFileName);
return (EFI_DEVICE_PATH_PROTOCOL *) FvFile;
}
/**
Converts a text device path node to text relative offset device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Text device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextRelativeOffsetRange (
CHAR16 *TextDeviceNode
)
{
CHAR16 *StartingOffsetStr;
CHAR16 *EndingOffsetStr;
MEDIA_RELATIVE_OFFSET_RANGE_DEVICE_PATH *Offset;
StartingOffsetStr = GetNextParamStr (&TextDeviceNode);
EndingOffsetStr = GetNextParamStr (&TextDeviceNode);
Offset = (MEDIA_RELATIVE_OFFSET_RANGE_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_RELATIVE_OFFSET_RANGE_DP,
(UINT16) sizeof (MEDIA_RELATIVE_OFFSET_RANGE_DEVICE_PATH)
);
Strtoi64 (StartingOffsetStr, &Offset->StartingOffset);
Strtoi64 (EndingOffsetStr, &Offset->EndingOffset);
return (EFI_DEVICE_PATH_PROTOCOL *) Offset;
}
/**
Converts a text device path node to text ram disk device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Text device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextRamDisk (
CHAR16 *TextDeviceNode
)
{
CHAR16 *StartingAddrStr;
CHAR16 *EndingAddrStr;
CHAR16 *TypeGuidStr;
CHAR16 *InstanceStr;
MEDIA_RAM_DISK_DEVICE_PATH *RamDisk;
UINT64 StartingAddr;
UINT64 EndingAddr;
StartingAddrStr = GetNextParamStr (&TextDeviceNode);
EndingAddrStr = GetNextParamStr (&TextDeviceNode);
InstanceStr = GetNextParamStr (&TextDeviceNode);
TypeGuidStr = GetNextParamStr (&TextDeviceNode);
RamDisk = (MEDIA_RAM_DISK_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_RAM_DISK_DP,
(UINT16) sizeof (MEDIA_RAM_DISK_DEVICE_PATH)
);
Strtoi64 (StartingAddrStr, &StartingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->StartingAddr[0]), StartingAddr);
Strtoi64 (EndingAddrStr, &EndingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->EndingAddr[0]), EndingAddr);
RamDisk->Instance = (UINT16) Strtoi (InstanceStr);
StrToGuid (TypeGuidStr, &RamDisk->TypeGuid);
return (EFI_DEVICE_PATH_PROTOCOL *) RamDisk;
}
/**
Converts a text device path node to text virtual disk device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Text device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVirtualDisk (
CHAR16 *TextDeviceNode
)
{
CHAR16 *StartingAddrStr;
CHAR16 *EndingAddrStr;
CHAR16 *InstanceStr;
MEDIA_RAM_DISK_DEVICE_PATH *RamDisk;
UINT64 StartingAddr;
UINT64 EndingAddr;
StartingAddrStr = GetNextParamStr (&TextDeviceNode);
EndingAddrStr = GetNextParamStr (&TextDeviceNode);
InstanceStr = GetNextParamStr (&TextDeviceNode);
RamDisk = (MEDIA_RAM_DISK_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_RAM_DISK_DP,
(UINT16) sizeof (MEDIA_RAM_DISK_DEVICE_PATH)
);
Strtoi64 (StartingAddrStr, &StartingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->StartingAddr[0]), StartingAddr);
Strtoi64 (EndingAddrStr, &EndingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->EndingAddr[0]), EndingAddr);
RamDisk->Instance = (UINT16) Strtoi (InstanceStr);
CopyGuid (&RamDisk->TypeGuid, &gEfiVirtualDiskGuid);
return (EFI_DEVICE_PATH_PROTOCOL *) RamDisk;
}
/**
Converts a text device path node to text virtual cd device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Text device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVirtualCd (
CHAR16 *TextDeviceNode
)
{
CHAR16 *StartingAddrStr;
CHAR16 *EndingAddrStr;
CHAR16 *InstanceStr;
MEDIA_RAM_DISK_DEVICE_PATH *RamDisk;
UINT64 StartingAddr;
UINT64 EndingAddr;
StartingAddrStr = GetNextParamStr (&TextDeviceNode);
EndingAddrStr = GetNextParamStr (&TextDeviceNode);
InstanceStr = GetNextParamStr (&TextDeviceNode);
RamDisk = (MEDIA_RAM_DISK_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_RAM_DISK_DP,
(UINT16) sizeof (MEDIA_RAM_DISK_DEVICE_PATH)
);
Strtoi64 (StartingAddrStr, &StartingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->StartingAddr[0]), StartingAddr);
Strtoi64 (EndingAddrStr, &EndingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->EndingAddr[0]), EndingAddr);
RamDisk->Instance = (UINT16) Strtoi (InstanceStr);
CopyGuid (&RamDisk->TypeGuid, &gEfiVirtualCdGuid);
return (EFI_DEVICE_PATH_PROTOCOL *) RamDisk;
}
/**
Converts a text device path node to text persistent virtual disk device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Text device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPersistentVirtualDisk (
CHAR16 *TextDeviceNode
)
{
CHAR16 *StartingAddrStr;
CHAR16 *EndingAddrStr;
CHAR16 *InstanceStr;
MEDIA_RAM_DISK_DEVICE_PATH *RamDisk;
UINT64 StartingAddr;
UINT64 EndingAddr;
StartingAddrStr = GetNextParamStr (&TextDeviceNode);
EndingAddrStr = GetNextParamStr (&TextDeviceNode);
InstanceStr = GetNextParamStr (&TextDeviceNode);
RamDisk = (MEDIA_RAM_DISK_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_RAM_DISK_DP,
(UINT16) sizeof (MEDIA_RAM_DISK_DEVICE_PATH)
);
Strtoi64 (StartingAddrStr, &StartingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->StartingAddr[0]), StartingAddr);
Strtoi64 (EndingAddrStr, &EndingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->EndingAddr[0]), EndingAddr);
RamDisk->Instance = (UINT16) Strtoi (InstanceStr);
CopyGuid (&RamDisk->TypeGuid, &gEfiPersistentVirtualDiskGuid);
return (EFI_DEVICE_PATH_PROTOCOL *) RamDisk;
}
/**
Converts a text device path node to text persistent virtual cd device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created Text device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPersistentVirtualCd (
CHAR16 *TextDeviceNode
)
{
CHAR16 *StartingAddrStr;
CHAR16 *EndingAddrStr;
CHAR16 *InstanceStr;
MEDIA_RAM_DISK_DEVICE_PATH *RamDisk;
UINT64 StartingAddr;
UINT64 EndingAddr;
StartingAddrStr = GetNextParamStr (&TextDeviceNode);
EndingAddrStr = GetNextParamStr (&TextDeviceNode);
InstanceStr = GetNextParamStr (&TextDeviceNode);
RamDisk = (MEDIA_RAM_DISK_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_RAM_DISK_DP,
(UINT16) sizeof (MEDIA_RAM_DISK_DEVICE_PATH)
);
Strtoi64 (StartingAddrStr, &StartingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->StartingAddr[0]), StartingAddr);
Strtoi64 (EndingAddrStr, &EndingAddr);
WriteUnaligned64 ((UINT64 *) &(RamDisk->EndingAddr[0]), EndingAddr);
RamDisk->Instance = (UINT16) Strtoi (InstanceStr);
CopyGuid (&RamDisk->TypeGuid, &gEfiPersistentVirtualCdGuid);
return (EFI_DEVICE_PATH_PROTOCOL *) RamDisk;
}
/**
Converts a BBS text device path node to BBS device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to BBS device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBbsPath (
CHAR16 *TextDeviceNode
)
{
return DevPathFromTextGenericPath (BBS_DEVICE_PATH, TextDeviceNode);
}
/**
Converts a text device path node to BIOS Boot Specification device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created BIOS Boot Specification device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBBS (
CHAR16 *TextDeviceNode
)
{
CHAR16 *TypeStr;
CHAR16 *IdStr;
CHAR16 *FlagsStr;
CHAR8 *AsciiStr;
BBS_BBS_DEVICE_PATH *Bbs;
TypeStr = GetNextParamStr (&TextDeviceNode);
IdStr = GetNextParamStr (&TextDeviceNode);
FlagsStr = GetNextParamStr (&TextDeviceNode);
Bbs = (BBS_BBS_DEVICE_PATH *) CreateDeviceNode (
BBS_DEVICE_PATH,
BBS_BBS_DP,
(UINT16) (sizeof (BBS_BBS_DEVICE_PATH) + StrLen (IdStr))
);
if (StrCmp (TypeStr, L"Floppy") == 0) {
Bbs->DeviceType = BBS_TYPE_FLOPPY;
} else if (StrCmp (TypeStr, L"HD") == 0) {
Bbs->DeviceType = BBS_TYPE_HARDDRIVE;
} else if (StrCmp (TypeStr, L"CDROM") == 0) {
Bbs->DeviceType = BBS_TYPE_CDROM;
} else if (StrCmp (TypeStr, L"PCMCIA") == 0) {
Bbs->DeviceType = BBS_TYPE_PCMCIA;
} else if (StrCmp (TypeStr, L"USB") == 0) {
Bbs->DeviceType = BBS_TYPE_USB;
} else if (StrCmp (TypeStr, L"Network") == 0) {
Bbs->DeviceType = BBS_TYPE_EMBEDDED_NETWORK;
} else {
Bbs->DeviceType = (UINT16) Strtoi (TypeStr);
}
AsciiStr = Bbs->String;
StrToAscii (IdStr, &AsciiStr);
Bbs->StatusFlag = (UINT16) Strtoi (FlagsStr);
return (EFI_DEVICE_PATH_PROTOCOL *) Bbs;
}
/**
Converts a text device path node to SATA device path structure.
@param TextDeviceNode The input Text device path node.
@return A pointer to the newly-created SATA device path structure.
**/
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSata (
CHAR16 *TextDeviceNode
)
{
SATA_DEVICE_PATH *Sata;
CHAR16 *Param1;
CHAR16 *Param2;
CHAR16 *Param3;
Param1 = GetNextParamStr (&TextDeviceNode);
Param2 = GetNextParamStr (&TextDeviceNode);
Param3 = GetNextParamStr (&TextDeviceNode);
Sata = (SATA_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_SATA_DP,
(UINT16) sizeof (SATA_DEVICE_PATH)
);
Sata->HBAPortNumber = (UINT16) Strtoi (Param1);
//
// According to UEFI spec, if PMPN is not provided, the default is 0xFFFF
//
if (*Param2 == L'\0' ) {
Sata->PortMultiplierPortNumber = 0xFFFF;
} else {
Sata->PortMultiplierPortNumber = (UINT16) Strtoi (Param2);
}
Sata->Lun = (UINT16) Strtoi (Param3);
return (EFI_DEVICE_PATH_PROTOCOL *) Sata;
}
DEVICE_PATH_FROM_TEXT_TABLE mUefiDevicePathLibDevPathFromTextTable[] = {
{L"Path", DevPathFromTextPath },
{L"HardwarePath", DevPathFromTextHardwarePath },
{L"Pci", DevPathFromTextPci },
{L"PcCard", DevPathFromTextPcCard },
{L"MemoryMapped", DevPathFromTextMemoryMapped },
{L"VenHw", DevPathFromTextVenHw },
{L"Ctrl", DevPathFromTextCtrl },
{L"BMC", DevPathFromTextBmc },
{L"AcpiPath", DevPathFromTextAcpiPath },
{L"Acpi", DevPathFromTextAcpi },
{L"PciRoot", DevPathFromTextPciRoot },
{L"PcieRoot", DevPathFromTextPcieRoot },
{L"Floppy", DevPathFromTextFloppy },
{L"Keyboard", DevPathFromTextKeyboard },
{L"Serial", DevPathFromTextSerial },
{L"ParallelPort", DevPathFromTextParallelPort },
{L"AcpiEx", DevPathFromTextAcpiEx },
{L"AcpiExp", DevPathFromTextAcpiExp },
{L"AcpiAdr", DevPathFromTextAcpiAdr },
{L"Msg", DevPathFromTextMsg },
{L"Ata", DevPathFromTextAta },
{L"Scsi", DevPathFromTextScsi },
{L"Fibre", DevPathFromTextFibre },
{L"FibreEx", DevPathFromTextFibreEx },
{L"I1394", DevPathFromText1394 },
{L"USB", DevPathFromTextUsb },
{L"I2O", DevPathFromTextI2O },
{L"Infiniband", DevPathFromTextInfiniband },
{L"VenMsg", DevPathFromTextVenMsg },
{L"VenPcAnsi", DevPathFromTextVenPcAnsi },
{L"VenVt100", DevPathFromTextVenVt100 },
{L"VenVt100Plus", DevPathFromTextVenVt100Plus },
{L"VenUtf8", DevPathFromTextVenUtf8 },
{L"UartFlowCtrl", DevPathFromTextUartFlowCtrl },
{L"SAS", DevPathFromTextSAS },
{L"SasEx", DevPathFromTextSasEx },
{L"NVMe", DevPathFromTextNVMe },
{L"UFS", DevPathFromTextUfs },
{L"SD", DevPathFromTextSd },
{L"eMMC", DevPathFromTextEmmc },
{L"DebugPort", DevPathFromTextDebugPort },
{L"MAC", DevPathFromTextMAC },
{L"IPv4", DevPathFromTextIPv4 },
{L"IPv6", DevPathFromTextIPv6 },
{L"Uart", DevPathFromTextUart },
{L"UsbClass", DevPathFromTextUsbClass },
{L"UsbAudio", DevPathFromTextUsbAudio },
{L"UsbCDCControl", DevPathFromTextUsbCDCControl },
{L"UsbHID", DevPathFromTextUsbHID },
{L"UsbImage", DevPathFromTextUsbImage },
{L"UsbPrinter", DevPathFromTextUsbPrinter },
{L"UsbMassStorage", DevPathFromTextUsbMassStorage },
{L"UsbHub", DevPathFromTextUsbHub },
{L"UsbCDCData", DevPathFromTextUsbCDCData },
{L"UsbSmartCard", DevPathFromTextUsbSmartCard },
{L"UsbVideo", DevPathFromTextUsbVideo },
{L"UsbDiagnostic", DevPathFromTextUsbDiagnostic },
{L"UsbWireless", DevPathFromTextUsbWireless },
{L"UsbDeviceFirmwareUpdate", DevPathFromTextUsbDeviceFirmwareUpdate },
{L"UsbIrdaBridge", DevPathFromTextUsbIrdaBridge },
{L"UsbTestAndMeasurement", DevPathFromTextUsbTestAndMeasurement },
{L"UsbWwid", DevPathFromTextUsbWwid },
{L"Unit", DevPathFromTextUnit },
{L"iSCSI", DevPathFromTextiSCSI },
{L"Vlan", DevPathFromTextVlan },
{L"Dns", DevPathFromTextDns },
{L"Uri", DevPathFromTextUri },
{L"Bluetooth", DevPathFromTextBluetooth },
{L"Wi-Fi", DevPathFromTextWiFi },
{L"BluetoothLE", DevPathFromTextBluetoothLE },
{L"MediaPath", DevPathFromTextMediaPath },
{L"HD", DevPathFromTextHD },
{L"CDROM", DevPathFromTextCDROM },
{L"VenMedia", DevPathFromTextVenMedia },
{L"Media", DevPathFromTextMedia },
{L"Fv", DevPathFromTextFv },
{L"FvFile", DevPathFromTextFvFile },
{L"Offset", DevPathFromTextRelativeOffsetRange },
{L"RamDisk", DevPathFromTextRamDisk },
{L"VirtualDisk", DevPathFromTextVirtualDisk },
{L"VirtualCD", DevPathFromTextVirtualCd },
{L"PersistentVirtualDisk", DevPathFromTextPersistentVirtualDisk },
{L"PersistentVirtualCD", DevPathFromTextPersistentVirtualCd },
{L"BbsPath", DevPathFromTextBbsPath },
{L"BBS", DevPathFromTextBBS },
{L"Sata", DevPathFromTextSata },
{NULL, NULL}
};
/**
Convert text to the binary representation of a device node.
@param TextDeviceNode TextDeviceNode points to the text representation of a device
node. Conversion starts with the first character and continues
until the first non-device node character.
@return A pointer to the EFI device node or NULL if TextDeviceNode is NULL or there was
insufficient memory or text unsupported.
**/
EFI_DEVICE_PATH_PROTOCOL *
UefiDevicePathLibConvertTextToDeviceNode (
CONST CHAR16 *TextDeviceNode
)
{
DEVICE_PATH_FROM_TEXT FromText;
CHAR16 *ParamStr;
EFI_DEVICE_PATH_PROTOCOL *DeviceNode;
CHAR16 *DeviceNodeStr;
UINTN Index;
if ((TextDeviceNode == NULL) || (IS_NULL (*TextDeviceNode))) {
return NULL;
}
ParamStr = NULL;
FromText = NULL;
DeviceNodeStr = UefiDevicePathLibStrDuplicate (TextDeviceNode);
ASSERT (DeviceNodeStr != NULL);
for (Index = 0; mUefiDevicePathLibDevPathFromTextTable[Index].Function != NULL; Index++) {
ParamStr = GetParamByNodeName (DeviceNodeStr, mUefiDevicePathLibDevPathFromTextTable[Index].DevicePathNodeText);
if (ParamStr != NULL) {
FromText = mUefiDevicePathLibDevPathFromTextTable[Index].Function;
break;
}
}
if (FromText == NULL) {
//
// A file path
//
FromText = DevPathFromTextFilePath;
DeviceNode = FromText (DeviceNodeStr);
//
// According to above logic, if 'FromText' is NULL in the 'if' statement,
// then 'ParamStr' must be NULL as well. No memory allocation has been made
// in this case.
//
// The below check is for addressing a false positive potential memory leak
// issue raised from static analysis.
//
if (ParamStr != NULL) {
free (ParamStr);
}
} else {
DeviceNode = FromText (ParamStr);
free (ParamStr);
}
free (DeviceNodeStr);
return DeviceNode;
}
/**
Convert text to the binary representation of a device path.
@param TextDevicePath TextDevicePath points to the text representation of a device
path. Conversion starts with the first character and continues
until the first non-device node character.
@return A pointer to the allocated device path or NULL if TextDeviceNode is NULL or
there was insufficient memory.
**/
EFI_DEVICE_PATH_PROTOCOL *
UefiDevicePathLibConvertTextToDevicePath (
CONST CHAR16 *TextDevicePath
)
{
EFI_DEVICE_PATH_PROTOCOL *DeviceNode;
EFI_DEVICE_PATH_PROTOCOL *NewDevicePath;
CHAR16 *DevicePathStr;
CHAR16 *Str;
CHAR16 *DeviceNodeStr;
BOOLEAN IsInstanceEnd;
EFI_DEVICE_PATH_PROTOCOL *DevicePath;
if ((TextDevicePath == NULL) || (IS_NULL (*TextDevicePath))) {
return NULL;
}
DevicePath = (EFI_DEVICE_PATH_PROTOCOL *) AllocatePool (END_DEVICE_PATH_LENGTH);
ASSERT (DevicePath != NULL);
SetDevicePathEndNode (DevicePath);
DevicePathStr = UefiDevicePathLibStrDuplicate (TextDevicePath);
Str = DevicePathStr;
while ((DeviceNodeStr = GetNextDeviceNodeStr (&Str, &IsInstanceEnd)) != NULL) {
DeviceNode = UefiDevicePathLibConvertTextToDeviceNode (DeviceNodeStr);
NewDevicePath = AppendDevicePathNode (DevicePath, DeviceNode);
free (DevicePath);
free (DeviceNode);
DevicePath = NewDevicePath;
if (IsInstanceEnd) {
DeviceNode = (EFI_DEVICE_PATH_PROTOCOL *) AllocatePool (END_DEVICE_PATH_LENGTH);
ASSERT (DeviceNode != NULL);
SetDevicePathEndNode (DeviceNode);
DeviceNode->SubType = END_INSTANCE_DEVICE_PATH_SUBTYPE;
NewDevicePath = AppendDevicePathNode (DevicePath, DeviceNode);
free (DevicePath);
free (DeviceNode);
DevicePath = NewDevicePath;
}
}
free (DevicePathStr);
return DevicePath;
}