freebsd-nq/lib/libefivar/efivar-dp-parse.c

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/*-
* Copyright (c) 2017 Netflix, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
/*
* Routines to format EFI_DEVICE_PATHs from the UEFI standard. Much of
* this file is taken from EDK2 and rototilled.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <ctype.h>
#include <efivar.h>
#include <stdio.h>
#include <string.h>
#include <wchar.h>
#include "efichar.h"
#include "efi-osdep.h"
#include "efivar-dp.h"
#include "uefi-dplib.h"
/* XXX STUBS -- this stuff doesn't work yet */
#define StrToIpv4Address(str, unk, ipv4ptr, unk2)
#define StrToIpv6Address(str, unk, ipv6ptr, unk2)
/*
* OK. Now this is evil. Can't typedef it again. Sure beats changing them all.
* Since we're doing it all as narrow characters since wchar_t can't be used on
* FreeBSD and CHAR16 strings generally aren't a good fit. Since this parsing
* doesn't need Unicode for anything, this works out well.
*/
#define CHAR16 char
/*
* Taken from MdePkg/Library/UefiDevicePathLib/DevicePathFromText.c
* hash a11928f3310518ab1c6fd34e8d0fdbb72de9602c 2017-Mar-01
*/
/** @file
DevicePathFromText protocol as defined in the UEFI 2.0 specification.
Copyright (c) 2013 - 2017, Intel Corporation. All rights reserved.<BR>
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.
**/
// #include "UefiDevicePathLib.h"
/**
Duplicates a string.
@param Src Source string.
@return The duplicated string.
**/
static
CHAR16 *
UefiDevicePathLibStrDuplicate (
IN 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.
**/
static
CHAR16 *
GetParamByNodeName (
IN CHAR16 *Str,
IN const 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] = '\0';
return ParamStr;
}
/**
Gets current sub-string from a string list, before return
the list header is moved to next sub-string. The sub-string is separated
by the specified character. For example, the separator is ',', the string
list is "2,0,3", it returns "2", the remain list move to "0,3"
@param List A string list separated by the specified separator
@param Separator The separator character
@return A pointer to the current sub-string
**/
static
CHAR16 *
SplitStr (
IN OUT CHAR16 **List,
IN CHAR16 Separator
)
{
CHAR16 *Str;
CHAR16 *ReturnStr;
Str = *List;
ReturnStr = Str;
if (IS_NULL (*Str)) {
return ReturnStr;
}
//
// Find first occurrence of the separator
//
while (!IS_NULL (*Str)) {
if (*Str == Separator) {
break;
}
Str++;
}
if (*Str == Separator) {
//
// Find a sub-string, terminate it
//
*Str = '\0';
Str++;
}
//
// Move to next sub-string
//
*List = Str;
return ReturnStr;
}
/**
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
**/
static
CHAR16 *
GetNextParamStr (
IN OUT CHAR16 **List
)
{
//
// The separator is comma
//
return SplitStr (List, ',');
}
/**
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
**/
static
CHAR16 *
GetNextDeviceNodeStr (
IN OUT CHAR16 **DevicePath,
OUT 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 = '\0';
Str++;
} else {
*IsInstanceEnd = FALSE;
if (!IS_NULL (*Str)) {
*Str = '\0';
Str++;
}
}
*DevicePath = Str;
return ReturnStr;
}
#ifndef __FreeBSD__
/**
Return whether the integer string is a hex string.
@param Str The integer string
@retval TRUE Hex string
@retval FALSE Decimal string
**/
static
BOOLEAN
IsHexStr (
IN CHAR16 *Str
)
{
//
// skip preceeding white space
//
while ((*Str != 0) && *Str == ' ') {
Str ++;
}
//
// skip preceeding zeros
//
while ((*Str != 0) && *Str == '0') {
Str ++;
}
return (BOOLEAN) (*Str == 'x' || *Str == 'X');
}
/**
Convert integer string to uint.
@param Str The integer string. If leading with "0x" or "0X", it's hexadecimal.
@return A UINTN value represented by Str
**/
static
UINTN
Strtoi (
IN CHAR16 *Str
)
{
if (IsHexStr (Str)) {
return StrHexToUintn (Str);
} else {
return StrDecimalToUintn (Str);
}
}
/**
Convert integer string to 64 bit data.
@param Str The integer string. If leading with "0x" or "0X", it's hexadecimal.
@param Data A pointer to the UINT64 value represented by Str
**/
static
VOID
Strtoi64 (
IN CHAR16 *Str,
OUT UINT64 *Data
)
{
if (IsHexStr (Str)) {
*Data = StrHexToUint64 (Str);
} else {
*Data = StrDecimalToUint64 (Str);
}
}
#endif
/**
Converts a Unicode string to ASCII string.
@param Str The equivalent Unicode string
@param AsciiStr On input, it points to destination ASCII string buffer; on output, it points
to the next ASCII string next to it
**/
static
VOID
StrToAscii (
IN CHAR16 *Str,
IN OUT CHAR8 **AsciiStr
)
{
CHAR8 *Dest;
Dest = *AsciiStr;
while (!IS_NULL (*Str)) {
*(Dest++) = (CHAR8) *(Str++);
}
*Dest = 0;
//
// Return the string next to it
//
*AsciiStr = Dest + 1;
}
/**
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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextGenericPath (
IN UINT8 Type,
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPath (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextHardwarePath (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPci (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPcCard (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMemoryMapped (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
ConvertFromTextVendor (
IN CHAR16 *TextDeviceNode,
IN UINT8 Type,
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenHw (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextCtrl (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBmc (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpiPath (
IN CHAR16 *TextDeviceNode
)
{
return DevPathFromTextGenericPath (ACPI_DEVICE_PATH, TextDeviceNode);
}
/**
Converts a string to EisaId.
@param Text The input string.
@return UINT32 EISA ID.
**/
static
UINT32
EisaIdFromText (
IN CHAR16 *Text
)
{
return (((Text[0] - 'A' + 1) & 0x1f) << 10)
+ (((Text[1] - 'A' + 1) & 0x1f) << 5)
+ (((Text[2] - 'A' + 1) & 0x1f) << 0)
+ (UINT32) (StrHexToUintn (&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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpi (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
ConvertFromTextAcpi (
IN CHAR16 *TextDeviceNode,
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPciRoot (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPcieRoot (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFloppy (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextKeyboard (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSerial (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextParallelPort (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpiEx (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpiExp (
IN 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);
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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAcpiAdr (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMsg (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextAta (
IN 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, "Primary") == 0) {
Atapi->PrimarySecondary = 0;
} else if (StrCmp (PrimarySecondaryStr, "Secondary") == 0) {
Atapi->PrimarySecondary = 1;
} else {
Atapi->PrimarySecondary = (UINT8) Strtoi (PrimarySecondaryStr);
}
if (StrCmp (SlaveMasterStr, "Master") == 0) {
Atapi->SlaveMaster = 0;
} else if (StrCmp (SlaveMasterStr, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextScsi (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFibre (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFibreEx (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromText1394 (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsb (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextI2O (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextInfiniband (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenMsg (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenPcAnsi (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenVt100 (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenVt100Plus (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenUtf8 (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUartFlowCtrl (
IN 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, "XonXoff") == 0) {
UartFlowControl->FlowControlMap = 2;
} else if (StrCmp (ValueStr, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSAS (
IN 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, "NoTopology") == 0) {
Info = 0x0;
} else if ((StrCmp (SASSATAStr, "SATA") == 0) || (StrCmp (SASSATAStr, "SAS") == 0)) {
Uint16 = (UINT16) Strtoi (DriveBayStr);
if (Uint16 == 0) {
Info = 0x1;
} else {
Info = (UINT16) (0x2 | ((Uint16 - 1) << 8));
}
if (StrCmp (SASSATAStr, "SATA") == 0) {
Info |= BIT4;
}
//
// Location is an integer between 0 and 1 or else
// the keyword Internal (0) or External (1).
//
if (StrCmp (LocationStr, "External") == 0) {
Uint16 = 1;
} else if (StrCmp (LocationStr, "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, "Expanded") == 0) {
Uint16 = 1;
} else if (StrCmp (ConnectStr, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSasEx (
IN 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, "NoTopology") == 0) {
Info = 0x0;
} else if ((StrCmp (SASSATAStr, "SATA") == 0) || (StrCmp (SASSATAStr, "SAS") == 0)) {
Uint16 = (UINT16) Strtoi (DriveBayStr);
if (Uint16 == 0) {
Info = 0x1;
} else {
Info = (UINT16) (0x2 | ((Uint16 - 1) << 8));
}
if (StrCmp (SASSATAStr, "SATA") == 0) {
Info |= BIT4;
}
//
// Location is an integer between 0 and 1 or else
// the keyword Internal (0) or External (1).
//
if (StrCmp (LocationStr, "External") == 0) {
Uint16 = 1;
} else if (StrCmp (LocationStr, "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, "Expanded") == 0) {
Uint16 = 1;
} else if (StrCmp (ConnectStr, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextNVMe (
IN 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) StrHexToUintn (SplitStr (&NamespaceUuidStr, '-'));
}
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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUfs (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSd (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextEmmc (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextDebugPort (
IN CHAR16 *TextDeviceNode
)
{
VENDOR_DEFINED_MESSAGING_DEVICE_PATH *Vend;
Vend = (VENDOR_DEFINED_MESSAGING_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_VENDOR_DP,
(UINT16) sizeof (VENDOR_DEFINED_MESSAGING_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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMAC (
IN 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);
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 .
**/
static
UINTN
NetworkProtocolFromText (
IN CHAR16 *Text
)
{
if (StrCmp (Text, "UDP") == 0) {
return RFC_1700_UDP_PROTOCOL;
}
if (StrCmp (Text, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextIPv4 (
IN 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, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextIPv6 (
IN 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, "Static") == 0) {
IPv6->IpAddressOrigin = 0;
} else if (StrCmp (TypeStr, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUart (
IN 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, "DEFAULT") == 0) {
Uart->BaudRate = 115200;
} else {
Strtoi64 (BaudStr, &Uart->BaudRate);
}
Uart->DataBits = (UINT8) ((StrCmp (DataBitsStr, "DEFAULT") == 0) ? 8 : Strtoi (DataBitsStr));
switch (*ParityStr) {
case 'D':
Uart->Parity = 0;
break;
case 'N':
Uart->Parity = 1;
break;
case 'E':
Uart->Parity = 2;
break;
case 'O':
Uart->Parity = 3;
break;
case 'M':
Uart->Parity = 4;
break;
case 'S':
Uart->Parity = 5;
break;
default:
Uart->Parity = (UINT8) Strtoi (ParityStr);
break;
}
if (StrCmp (StopBitsStr, "D") == 0) {
Uart->StopBits = (UINT8) 0;
} else if (StrCmp (StopBitsStr, "1") == 0) {
Uart->StopBits = (UINT8) 1;
} else if (StrCmp (StopBitsStr, "1.5") == 0) {
Uart->StopBits = (UINT8) 2;
} else if (StrCmp (StopBitsStr, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
ConvertFromTextUsbClass (
IN CHAR16 *TextDeviceNode,
IN 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);
UsbClass->DeviceClass = (UINT8) Strtoi (ClassStr);
} else {
UsbClass->DeviceClass = UsbClassText->Class;
}
if (UsbClassText->SubClassExist) {
SubClassStr = GetNextParamStr (&TextDeviceNode);
UsbClass->DeviceSubClass = (UINT8) Strtoi (SubClassStr);
} else {
UsbClass->DeviceSubClass = UsbClassText->SubClass;
}
ProtocolStr = GetNextParamStr (&TextDeviceNode);
UsbClass->VendorId = (UINT16) Strtoi (VIDStr);
UsbClass->ProductId = (UINT16) Strtoi (PIDStr);
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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbClass (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbAudio (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbCDCControl (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbHID (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbImage (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbPrinter (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbMassStorage (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbHub (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbCDCData (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbSmartCard (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbVideo (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbDiagnostic (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbWireless (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbDeviceFirmwareUpdate (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbIrdaBridge (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbTestAndMeasurement (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUsbWwid (
IN 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] == '\"' &&
SerialNumberStr[SerialNumberStrLen - 1] == '\"'
) {
SerialNumberStr[SerialNumberStrLen - 1] = '\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.
//
CopyMem (
(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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUnit (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextiSCSI (
IN 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;
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, &ISCSIDevPath->Lun);
Options = 0x0000;
if (StrCmp (HeaderDigestStr, "CRC32C") == 0) {
Options |= 0x0002;
}
if (StrCmp (DataDigestStr, "CRC32C") == 0) {
Options |= 0x0008;
}
if (StrCmp (AuthenticationStr, "None") == 0) {
Options |= 0x0800;
}
if (StrCmp (AuthenticationStr, "CHAP_UNI") == 0) {
Options |= 0x1000;
}
ISCSIDevPath->LoginOption = (UINT16) Options;
ISCSIDevPath->NetworkProtocol = (UINT16) StrCmp (ProtocolStr, "TCP");
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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVlan (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBluetooth (
IN CHAR16 *TextDeviceNode
)
{
CHAR16 *BluetoothStr;
CHAR16 *Walker;
CHAR16 *TempNumBuffer;
UINTN TempBufferSize;
INT32 Index;
BLUETOOTH_DEVICE_PATH *BluetoothDp;
BluetoothStr = GetNextParamStr (&TextDeviceNode);
BluetoothDp = (BLUETOOTH_DEVICE_PATH *) CreateDeviceNode (
MESSAGING_DEVICE_PATH,
MSG_BLUETOOTH_DP,
(UINT16) sizeof (BLUETOOTH_DEVICE_PATH)
);
Index = sizeof (BLUETOOTH_ADDRESS) - 1;
Walker = BluetoothStr;
while (!IS_NULL(*Walker) && Index >= 0) {
TempBufferSize = 2 * sizeof(CHAR16) + StrSize("0x");
TempNumBuffer = AllocateZeroPool (TempBufferSize);
if (TempNumBuffer == NULL) {
break;
}
StrCpyS (TempNumBuffer, TempBufferSize / sizeof (CHAR16), "0x");
StrnCatS (TempNumBuffer, TempBufferSize / sizeof (CHAR16), Walker, 2);
BluetoothDp->BD_ADDR.Address[Index] = (UINT8)Strtoi (TempNumBuffer);
FreePool (TempNumBuffer);
Walker += 2;
Index--;
}
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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextWiFi (
IN 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] = '\0';
DataLen = 32;
}
UnicodeStrToAsciiStrS (SSIdStr, AsciiStr, sizeof (AsciiStr));
CopyMem (WiFiDp->SSId, AsciiStr, DataLen);
}
return (EFI_DEVICE_PATH_PROTOCOL *) WiFiDp;
}
/**
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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextUri (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMediaPath (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextHD (
IN 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, "MBR") == 0) {
Hd->SignatureType = SIGNATURE_TYPE_MBR;
Hd->MBRType = 0x01;
Signature32 = (UINT32) Strtoi (SignatureStr);
CopyMem (Hd->Signature, &Signature32, sizeof (UINT32));
} else if (StrCmp (TypeStr, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextCDROM (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVenMedia (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFilePath (
IN CHAR16 *TextDeviceNode
)
{
FILEPATH_DEVICE_PATH *File;
#ifndef __FreeBSD__
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);
#else
size_t len = (sizeof (FILEPATH_DEVICE_PATH) + StrLen (TextDeviceNode) * 2);
efi_char * v;
File = (FILEPATH_DEVICE_PATH *) CreateDeviceNode (
MEDIA_DEVICE_PATH,
MEDIA_FILEPATH_DP,
(UINT16)len
);
v = File->PathName;
utf8_to_ucs2(TextDeviceNode, &v, &len);
#endif
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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextMedia (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFv (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextFvFile (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextRelativeOffsetRange (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextRamDisk (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVirtualDisk (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextVirtualCd (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPersistentVirtualDisk (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextPersistentVirtualCd (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBbsPath (
IN 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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextBBS (
IN 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, "Floppy") == 0) {
Bbs->DeviceType = BBS_TYPE_FLOPPY;
} else if (StrCmp (TypeStr, "HD") == 0) {
Bbs->DeviceType = BBS_TYPE_HARDDRIVE;
} else if (StrCmp (TypeStr, "CDROM") == 0) {
Bbs->DeviceType = BBS_TYPE_CDROM;
} else if (StrCmp (TypeStr, "PCMCIA") == 0) {
Bbs->DeviceType = BBS_TYPE_PCMCIA;
} else if (StrCmp (TypeStr, "USB") == 0) {
Bbs->DeviceType = BBS_TYPE_USB;
} else if (StrCmp (TypeStr, "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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
DevPathFromTextSata (
IN 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);
Sata->PortMultiplierPortNumber = (UINT16) Strtoi (Param2);
Sata->Lun = (UINT16) Strtoi (Param3);
return (EFI_DEVICE_PATH_PROTOCOL *) Sata;
}
GLOBAL_REMOVE_IF_UNREFERENCED DEVICE_PATH_FROM_TEXT_TABLE mUefiDevicePathLibDevPathFromTextTable[] = {
{"Path", DevPathFromTextPath },
{"HardwarePath", DevPathFromTextHardwarePath },
{"Pci", DevPathFromTextPci },
{"PcCard", DevPathFromTextPcCard },
{"MemoryMapped", DevPathFromTextMemoryMapped },
{"VenHw", DevPathFromTextVenHw },
{"Ctrl", DevPathFromTextCtrl },
{"BMC", DevPathFromTextBmc },
{"AcpiPath", DevPathFromTextAcpiPath },
{"Acpi", DevPathFromTextAcpi },
{"PciRoot", DevPathFromTextPciRoot },
{"PcieRoot", DevPathFromTextPcieRoot },
{"Floppy", DevPathFromTextFloppy },
{"Keyboard", DevPathFromTextKeyboard },
{"Serial", DevPathFromTextSerial },
{"ParallelPort", DevPathFromTextParallelPort },
{"AcpiEx", DevPathFromTextAcpiEx },
{"AcpiExp", DevPathFromTextAcpiExp },
{"AcpiAdr", DevPathFromTextAcpiAdr },
{"Msg", DevPathFromTextMsg },
{"Ata", DevPathFromTextAta },
{"Scsi", DevPathFromTextScsi },
{"Fibre", DevPathFromTextFibre },
{"FibreEx", DevPathFromTextFibreEx },
{"I1394", DevPathFromText1394 },
{"USB", DevPathFromTextUsb },
{"I2O", DevPathFromTextI2O },
{"Infiniband", DevPathFromTextInfiniband },
{"VenMsg", DevPathFromTextVenMsg },
{"VenPcAnsi", DevPathFromTextVenPcAnsi },
{"VenVt100", DevPathFromTextVenVt100 },
{"VenVt100Plus", DevPathFromTextVenVt100Plus },
{"VenUtf8", DevPathFromTextVenUtf8 },
{"UartFlowCtrl", DevPathFromTextUartFlowCtrl },
{"SAS", DevPathFromTextSAS },
{"SasEx", DevPathFromTextSasEx },
{"NVMe", DevPathFromTextNVMe },
{"UFS", DevPathFromTextUfs },
{"SD", DevPathFromTextSd },
{"eMMC", DevPathFromTextEmmc },
{"DebugPort", DevPathFromTextDebugPort },
{"MAC", DevPathFromTextMAC },
{"IPv4", DevPathFromTextIPv4 },
{"IPv6", DevPathFromTextIPv6 },
{"Uart", DevPathFromTextUart },
{"UsbClass", DevPathFromTextUsbClass },
{"UsbAudio", DevPathFromTextUsbAudio },
{"UsbCDCControl", DevPathFromTextUsbCDCControl },
{"UsbHID", DevPathFromTextUsbHID },
{"UsbImage", DevPathFromTextUsbImage },
{"UsbPrinter", DevPathFromTextUsbPrinter },
{"UsbMassStorage", DevPathFromTextUsbMassStorage },
{"UsbHub", DevPathFromTextUsbHub },
{"UsbCDCData", DevPathFromTextUsbCDCData },
{"UsbSmartCard", DevPathFromTextUsbSmartCard },
{"UsbVideo", DevPathFromTextUsbVideo },
{"UsbDiagnostic", DevPathFromTextUsbDiagnostic },
{"UsbWireless", DevPathFromTextUsbWireless },
{"UsbDeviceFirmwareUpdate", DevPathFromTextUsbDeviceFirmwareUpdate },
{"UsbIrdaBridge", DevPathFromTextUsbIrdaBridge },
{"UsbTestAndMeasurement", DevPathFromTextUsbTestAndMeasurement },
{"UsbWwid", DevPathFromTextUsbWwid },
{"Unit", DevPathFromTextUnit },
{"iSCSI", DevPathFromTextiSCSI },
{"Vlan", DevPathFromTextVlan },
{"Uri", DevPathFromTextUri },
{"Bluetooth", DevPathFromTextBluetooth },
{"Wi-Fi", DevPathFromTextWiFi },
{"MediaPath", DevPathFromTextMediaPath },
{"HD", DevPathFromTextHD },
{"CDROM", DevPathFromTextCDROM },
{"VenMedia", DevPathFromTextVenMedia },
{"Media", DevPathFromTextMedia },
{"Fv", DevPathFromTextFv },
{"FvFile", DevPathFromTextFvFile },
{"File", DevPathFromTextFilePath },
{"Offset", DevPathFromTextRelativeOffsetRange },
{"RamDisk", DevPathFromTextRamDisk },
{"VirtualDisk", DevPathFromTextVirtualDisk },
{"VirtualCD", DevPathFromTextVirtualCd },
{"PersistentVirtualDisk", DevPathFromTextPersistentVirtualDisk },
{"PersistentVirtualCD", DevPathFromTextPersistentVirtualCd },
{"BbsPath", DevPathFromTextBbsPath },
{"BBS", DevPathFromTextBBS },
{"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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
EFIAPI
UefiDevicePathLibConvertTextToDeviceNode (
IN 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);
} else {
DeviceNode = FromText (ParamStr);
FreePool (ParamStr);
}
FreePool (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.
**/
static
EFI_DEVICE_PATH_PROTOCOL *
EFIAPI
UefiDevicePathLibConvertTextToDevicePath (
IN 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);
FreePool (DevicePath);
FreePool (DeviceNode);
DevicePath = NewDevicePath;
if (IsInstanceEnd) {
DeviceNode = (EFI_DEVICE_PATH_PROTOCOL *) AllocatePool (END_DEVICE_PATH_LENGTH);
ASSERT (DeviceNode != NULL);
SetDevicePathEndNode (DeviceNode);
// Fix from https://bugzilla.tianocore.org/show_bug.cgi?id=419
DeviceNode->SubType = END_INSTANCE_DEVICE_PATH_SUBTYPE;
NewDevicePath = AppendDevicePathNode (DevicePath, DeviceNode);
FreePool (DevicePath);
FreePool (DeviceNode);
DevicePath = NewDevicePath;
}
}
FreePool (DevicePathStr);
return DevicePath;
}
ssize_t
efidp_parse_device_path(char *path, efidp out, size_t max)
{
EFI_DEVICE_PATH_PROTOCOL *dp;
UINTN len;
dp = UefiDevicePathLibConvertTextToDevicePath (path);
if (dp == NULL)
return -1;
len = GetDevicePathSize(dp);
if (len > max) {
free(dp);
return -1;
}
memcpy(out, dp, len);
free(dp);
return len;
}