CloverBootloader/Trash/clover-genconfig/efidevp.c

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#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "efidevp.h"
/* From utils.c */
extern void CatPrintf(char *target, const char *format, ...);
extern void *MallocCopy(unsigned int size, void *buf);
/*
* 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".
*/
char *GetParamByNodeName (CHAR8 *Str, CHAR8 *NodeName)
{
CHAR8 *ParamStr;
CHAR8 *StrPointer;
UINT32 NodeNameLength;
UINT32 ParameterLength;
// Check whether the node name matchs
NodeNameLength = (UINT32)strlen (NodeName);
if (strncasecmp(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 = MallocCopy ((ParameterLength + 1), ParamStr);
if (ParamStr == NULL)
{
return NULL;
}
// Terminate the parameter string
ParamStr[ParameterLength] = '\0';
return ParamStr;
}
/* Get 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"
*/
CHAR8 *SplitStr (CHAR8 **List, CHAR8 Separator)
{
char *Str;
char *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;
}
CHAR8 *GetNextParamStr (CHAR8 **List)
{
// The separator is comma
return SplitStr (List, ',');
}
// Get one device node from entire device path text.
CHAR8 *GetNextDeviceNodeStr (CHAR8 **DevicePath, BOOLEAN *IsInstanceEnd)
{
CHAR8 *Str;
CHAR8 *ReturnStr;
UINT32 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 = 1;
*Str = '\0';
Str++;
}
else
{
*IsInstanceEnd = 0;
if (!IS_NULL (*Str))
{
*Str = '\0';
Str++;
}
}
*DevicePath = Str;
return ReturnStr;
}
/*
* Function unpacks a device path data structure so that all the nodes of a device path
* are naturally aligned.
*/
EFI_DEVICE_PATH_P *UnpackDevicePath (EFI_DEVICE_PATH_P *DevPath)
{
EFI_DEVICE_PATH_P *Src;
EFI_DEVICE_PATH_P *Dest;
EFI_DEVICE_PATH_P *NewPath;
UINT32 Size;
UINT32 Count;
if (DevPath == NULL)
{
return NULL;
}
// Walk device path and round sizes to valid boundries
Src = DevPath;
Size = 0;
for (Count = 0;;Count++)
{
if(Count > MAX_DEVICE_PATH_LEN)
{
// BugBug: Code to catch bogus device path
fprintf(stderr, "UnpackDevicePath: Cannot find device path end! Probably a bogus device path\n");
return NULL;
}
Size += DevicePathNodeLength (Src);
Size += ALIGN_SIZE (Size);
if (IsDevicePathEnd (Src))
{
break;
}
Src = (EFI_DEVICE_PATH_P *) NextDevicePathNode (Src);
}
// Allocate space for the unpacked path
NewPath = (EFI_DEVICE_PATH_P *)(UINT8*)calloc(Size, sizeof(UINT8));
if (NewPath != NULL)
{
assert(((UINT32) NewPath) % MIN_ALIGNMENT_SIZE == 0);
// Copy each node
Src = DevPath;
Dest = NewPath;
for (;;)
{
Size = DevicePathNodeLength (Src);
memcpy(Dest, Src, Size);
Size += ALIGN_SIZE (Size);
SetDevicePathNodeLength (Dest, Size);
Dest->Type |= EFI_DP_TYPE_UNPACKED;
Dest = (EFI_DEVICE_PATH_P *) (((UINT8 *) Dest) + Size);
if (IsDevicePathEnd (Src))
{
break;
}
Src = (EFI_DEVICE_PATH_P *) NextDevicePathNode (Src);
}
}
return NewPath;
}
// Returns the size of the device path, in bytes.
UINT32 DevicePathSize (const EFI_DEVICE_PATH_P *DevicePath)
{
const EFI_DEVICE_PATH_P*Start;
UINT32 Count = 0;
if (DevicePath == NULL)
{
return 0;
}
// Search for the end of the device path structure
Start = (EFI_DEVICE_PATH_P*) DevicePath;
for (Count = 0;!IsDevicePathEnd(DevicePath);Count++)
{
if(Count > MAX_DEVICE_PATH_LEN)
{
// BugBug: Code to catch bogus device path
fprintf(stderr, "DevicePathSize: Cannot find device path end! Probably a bogus device path\n");
return 0;
}
DevicePath = NextDevicePathNode (DevicePath);
}
// Compute the size and add back in the size of the end device path structure
return ((UINT32) DevicePath - (UINT32) Start) + sizeof (EFI_DEVICE_PATH_P);
}
// Creates a device node
EFI_DEVICE_PATH_P*CreateDeviceNode (UINT8 NodeType, UINT8 NodeSubType, UINT16 NodeLength)
{
EFI_DEVICE_PATH_P*Node;
if (NodeLength < sizeof (EFI_DEVICE_PATH_P))
{
return NULL;
}
Node = (EFI_DEVICE_PATH_P*) (UINT8*)calloc ((UINT32) NodeLength, sizeof(UINT8));
if (Node != NULL)
{
Node->Type = NodeType;
Node->SubType = NodeSubType;
SetDevicePathNodeLength (Node, NodeLength);
}
return Node;
}
// Duplicate a device path structure.
EFI_DEVICE_PATH_P*DuplicateDevicePathP (EFI_DEVICE_PATH_P *DevicePath)
{
EFI_DEVICE_PATH_P*NewDevicePath;
UINT32 Size;
if (DevicePath == NULL)
{
return NULL;
}
// Compute the size
Size = DevicePathSize (DevicePath);
if (Size == 0)
{
return NULL;
}
// Allocate space for duplicate device path
NewDevicePath = MallocCopy(Size, DevicePath);
return NewDevicePath;
}
void EisaIdToText (UINT32 EisaId, CHAR8 *Text)
{
CHAR8 PnpIdStr[17];
//SPrint ("%X", 0x0a03) => "0000000000000A03"
snprintf(PnpIdStr, 17, "%X", EisaId >> 16);
snprintf(Text,0,"%c%c%c%s",'@' + ((EisaId >> 10) & 0x1f),'@' + ((EisaId >> 5) & 0x1f),'@' + ((EisaId >> 0) & 0x1f), PnpIdStr + (16 - 4));
}
void DevPathToTextPci (CHAR8 *Str, void *DevPath, BOOLEAN DisplayOnly, BOOLEAN AllowShortcuts)
{
PCI_DEVICE_PATH_P *Pci;
Pci = DevPath;
CatPrintf(Str, "Pci(0x%x,0x%x)", Pci->Device, Pci->Function);
}
void DevPathToTextAcpi (CHAR8 *Str, void *DevPath, BOOLEAN DisplayOnly, BOOLEAN AllowShortcuts)
{
ACPI_HID_DEVICE_PATH_P *Acpi;
Acpi = DevPath;
if ((Acpi->HID & PNP_EISA_ID_MASK) == PNP_EISA_ID_CONST)
{
switch (EISA_ID_TO_NUM (Acpi->HID))
{
case 0x0a03:
CatPrintf(Str, "PciRoot(0x%x)", Acpi->UID);
break;
default:
CatPrintf(Str, "Acpi(PNP%04x,0x%x)", EISA_ID_TO_NUM (Acpi->HID), Acpi->UID);
break;
}
}
else
{
CatPrintf(Str, "Acpi(0x%08x,0x%x)", Acpi->HID, Acpi->UID);
}
}
void DevPathToTextEndInstance (CHAR8 *Str, void *DevPath, BOOLEAN DisplayOnly, BOOLEAN AllowShortcuts)
{
CatPrintf(Str, ",");
}
void DevPathToTextNodeUnknown (CHAR8 *Str, void *DevPath, BOOLEAN DisplayOnly, BOOLEAN AllowShortcuts)
{
CatPrintf(Str, "?");
}
DEVICE_PATH_TO_TEXT_TABLE DevPathToTextTable[] =
{
HARDWARE_DEVICE_PATH,
HW_PCI_DP,
DevPathToTextPci,
ACPI_DEVICE_PATH,
ACPI_DP,
DevPathToTextAcpi,
END_DEVICE_PATH_TYPE,
END_INSTANCE_DEVICE_PATH_SUBTYPE,
DevPathToTextEndInstance,
0,
0,
NULL
};
// Convert a device path to its text representation.
CHAR8 *ConvertDevicePathToAscii (const EFI_DEVICE_PATH_P*DevicePath, BOOLEAN DisplayOnly, BOOLEAN AllowShortcuts)
{
CHAR8 *Str;
EFI_DEVICE_PATH_P *DevPathNode;
EFI_DEVICE_PATH_P *UnpackDevPath;
UINT32 Index;
UINT32 NewSize;
void (*DumpNode) (CHAR8 *, void *, BOOLEAN, BOOLEAN);
if (DevicePath == NULL)
{
return NULL;
}
Str = (CHAR8 *)calloc(MAX_PATH_LEN, sizeof(CHAR8));
// Unpacked the device path
UnpackDevPath = UnpackDevicePath ((EFI_DEVICE_PATH_P*) DevicePath);
assert(UnpackDevPath != NULL);
// Process each device path node
DevPathNode = UnpackDevPath;
while (!IsDevicePathEnd (DevPathNode))
{
// Find the handler to dump this device path node
DumpNode = NULL;
for (Index = 0; DevPathToTextTable[Index].Function; Index += 1)
{
if (DevicePathType (DevPathNode) == DevPathToTextTable[Index].Type &&
DevicePathSubType (DevPathNode) == DevPathToTextTable[Index].SubType)
{
DumpNode = DevPathToTextTable[Index].Function;
break;
}
}
// If not found, use a generic function
if (!DumpNode)
{
DumpNode = DevPathToTextNodeUnknown;
}
// Put a path seperator in if needed
if (strlen(Str) && DumpNode != DevPathToTextEndInstance)
{
if (*(Str + strlen(Str) - 1) != ',')
{
CatPrintf(Str, "/");
}
}
// Print this node of the device path
DumpNode (Str, DevPathNode, DisplayOnly, AllowShortcuts);
// Next device path node
DevPathNode = NextDevicePathNode (DevPathNode);
}
// Shrink pool used for string allocation
free(UnpackDevPath);
NewSize = ((UINT32)strlen(Str) + 1);
Str = realloc(Str, NewSize);
assert(Str != NULL);
Str[strlen(Str)] = 0;
return Str;
}