/*
- * refit/lib.c
+ * refind/lib.c
* General library functions
*
* Copyright (c) 2006-2009 Christoph Pfisterer
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
/*
- * Modifications copyright (c) 2012 Roderick W. Smith
- *
+ * Modifications copyright (c) 2012-2014 Roderick W. Smith
+ *
* Modifications distributed under the terms of the GNU General Public
* License (GPL) version 3 (GPLv3), a copy of which must be distributed
* with this source code or binaries made from it.
- *
+ *
*/
#include "global.h"
#include "lib.h"
#include "icns.h"
#include "screen.h"
-#include "refit_call_wrapper.h"
+#include "../include/refit_call_wrapper.h"
+#include "../include/RemovableMedia.h"
+#include "gpt.h"
+
+#ifdef __MAKEWITH_GNUEFI
+#define EfiReallocatePool ReallocatePool
+#else
+#define LibLocateHandle gBS->LocateHandleBuffer
+#define DevicePathProtocol gEfiDevicePathProtocolGuid
+#define BlockIoProtocol gEfiBlockIoProtocolGuid
+#define LibFileSystemInfo EfiLibFileSystemInfo
+#define LibOpenRoot EfiLibOpenRoot
+EFI_DEVICE_PATH EndDevicePath[] = {
+ {END_DEVICE_PATH_TYPE, END_ENTIRE_DEVICE_PATH_SUBTYPE, {END_DEVICE_PATH_LENGTH, 0}}
+};
+
+//#define EndDevicePath DevicePath
+#endif
+
+// "Magic" signatures for various filesystems
+#define FAT_MAGIC 0xAA55
+#define EXT2_SUPER_MAGIC 0xEF53
+#define HFSPLUS_MAGIC1 0x2B48
+#define HFSPLUS_MAGIC2 0x5848
+#define REISERFS_SUPER_MAGIC_STRING "ReIsErFs"
+#define REISER2FS_SUPER_MAGIC_STRING "ReIsEr2Fs"
+#define REISER2FS_JR_SUPER_MAGIC_STRING "ReIsEr3Fs"
+#define BTRFS_SIGNATURE "_BHRfS_M"
// variables
REFIT_VOLUME *SelfVolume = NULL;
REFIT_VOLUME **Volumes = NULL;
UINTN VolumesCount = 0;
+extern GPT_DATA *gPartitions;
// Maximum size for disk sectors
#define SECTOR_SIZE 4096
+// Number of bytes to read from a partition to determine its filesystem type
+// and identify its boot loader, and hence probable BIOS-mode OS installation
+#define SAMPLE_SIZE 69632 /* 68 KiB -- ReiserFS superblock begins at 64 KiB */
+
+
// functions
static EFI_STATUS FinishInitRefitLib(VOID);
// self recognition stuff
//
+// Converts forward slashes to backslashes, removes duplicate slashes, and
+// removes slashes from both the start and end of the pathname.
+// Necessary because some (buggy?) EFI implementations produce "\/" strings
+// in pathnames, because some user inputs can produce duplicate directory
+// separators, and because we want consistent start and end slashes for
+// directory comparisons. A special case: If the PathName refers to root,
+// return "/", since some firmware implementations flake out if this
+// isn't present.
+VOID CleanUpPathNameSlashes(IN OUT CHAR16 *PathName) {
+ CHAR16 *NewName;
+ UINTN i, Length, FinalChar = 0;
+ BOOLEAN LastWasSlash = FALSE;
+
+ Length = StrLen(PathName);
+ NewName = AllocateZeroPool(sizeof(CHAR16) * (Length + 2));
+ if (NewName != NULL) {
+ for (i = 0; i < StrLen(PathName); i++) {
+ if ((PathName[i] == L'/') || (PathName[i] == L'\\')) {
+ if ((!LastWasSlash) && (FinalChar != 0))
+ NewName[FinalChar++] = L'\\';
+ LastWasSlash = TRUE;
+ } else {
+ NewName[FinalChar++] = PathName[i];
+ LastWasSlash = FALSE;
+ } // if/else
+ } // for
+ NewName[FinalChar] = 0;
+ if ((FinalChar > 0) && (NewName[FinalChar - 1] == L'\\'))
+ NewName[--FinalChar] = 0;
+ if (FinalChar == 0) {
+ NewName[0] = L'\\';
+ NewName[1] = 0;
+ }
+ // Copy the transformed name back....
+ StrCpy(PathName, NewName);
+ FreePool(NewName);
+ } // if allocation OK
+} // CleanUpPathNameSlashes()
+
+// Splits an EFI device path into device and filename components. For instance, if InString is
+// PciRoot(0x0)/Pci(0x1f,0x2)/Ata(Secondary,Master,0x0)/HD(2,GPT,8314ae90-ada3-48e9-9c3b-09a88f80d921,0x96028,0xfa000)/\bzImage-3.5.1.efi,
+// this function will truncate that input to
+// PciRoot(0x0)/Pci(0x1f,0x2)/Ata(Secondary,Master,0x0)/HD(2,GPT,8314ae90-ada3-48e9-9c3b-09a88f80d921,0x96028,0xfa000)
+// and return bzImage-3.5.1.efi as its return value.
+// It does this by searching for the last ")" character in InString, copying everything
+// after that string (after some cleanup) as the return value, and truncating the original
+// input value.
+// If InString contains no ")" character, this function leaves the original input string
+// unmodified and also returns that string. If InString is NULL, this function returns NULL.
+static CHAR16* SplitDeviceString(IN OUT CHAR16 *InString) {
+ INTN i;
+ CHAR16 *FileName = NULL;
+ BOOLEAN Found = FALSE;
+
+ if (InString != NULL) {
+ i = StrLen(InString) - 1;
+ while ((i >= 0) && (!Found)) {
+ if (InString[i] == L')') {
+ Found = TRUE;
+ FileName = StrDuplicate(&InString[i + 1]);
+ CleanUpPathNameSlashes(FileName);
+ InString[i + 1] = '\0';
+ } // if
+ i--;
+ } // while
+ if (FileName == NULL)
+ FileName = StrDuplicate(InString);
+ } // if
+ return FileName;
+} // static CHAR16* SplitDeviceString()
+
EFI_STATUS InitRefitLib(IN EFI_HANDLE ImageHandle)
{
EFI_STATUS Status;
- CHAR16 *DevicePathAsString;
- CHAR16 BaseDirectory[256];
- UINTN i;
-
+ CHAR16 *DevicePathAsString, *Temp;
+
SelfImageHandle = ImageHandle;
Status = refit_call3_wrapper(BS->HandleProtocol, SelfImageHandle, &LoadedImageProtocol, (VOID **) &SelfLoadedImage);
if (CheckFatalError(Status, L"while getting a LoadedImageProtocol handle"))
// find the current directory
DevicePathAsString = DevicePathToStr(SelfLoadedImage->FilePath);
- if (DevicePathAsString != NULL) {
- StrCpy(BaseDirectory, DevicePathAsString);
- FreePool(DevicePathAsString);
- for (i = StrLen(BaseDirectory); i > 0 && BaseDirectory[i] != '\\'; i--) ;
- BaseDirectory[i] = 0;
- } else
- BaseDirectory[0] = 0;
- SelfDirPath = StrDuplicate(BaseDirectory);
-
+ CleanUpPathNameSlashes(DevicePathAsString);
+ MyFreePool(SelfDirPath);
+ Temp = FindPath(DevicePathAsString);
+ SelfDirPath = SplitDeviceString(Temp);
+ MyFreePool(DevicePathAsString);
+ MyFreePool(Temp);
+
return FinishInitRefitLib();
}
// called before running external programs to close open file handles
VOID UninitRefitLib(VOID)
{
+ // This piece of code was made to correspond to weirdness in ReinitRefitLib().
+ // See the comment on it there.
+ if(SelfRootDir == SelfVolume->RootDir)
+ SelfRootDir=0;
+
UninitVolumes();
-
+
if (SelfDir != NULL) {
refit_call1_wrapper(SelfDir->Close, SelfDir);
SelfDir = NULL;
}
-
+
if (SelfRootDir != NULL) {
- refit_call1_wrapper(SelfRootDir->Close, SelfRootDir);
- SelfRootDir = NULL;
+ refit_call1_wrapper(SelfRootDir->Close, SelfRootDir);
+ SelfRootDir = NULL;
}
}
EFI_STATUS ReinitRefitLib(VOID)
{
ReinitVolumes();
-
- if (SelfVolume != NULL && SelfVolume->RootDir != NULL)
- SelfRootDir = SelfVolume->RootDir;
-
+
+ if ((ST->Hdr.Revision >> 16) == 1) {
+ // Below two lines were in rEFIt, but seem to cause system crashes or
+ // reboots when launching OSes after returning from programs on most
+ // systems. OTOH, my Mac Mini produces errors about "(re)opening our
+ // installation volume" (see the next function) when returning from
+ // programs when these two lines are removed, and it often crashes
+ // when returning from a program or when launching a second program
+ // with these lines removed. Therefore, the preceding if() statement
+ // executes these lines only on EFIs with a major version number of 1
+ // (which Macs have) and not with 2 (which UEFI PCs have). My selection
+ // of hardware on which to test is limited, though, so this may be the
+ // wrong test, or there may be a better way to fix this problem.
+ // TODO: Figure out cause of above weirdness and fix it more
+ // reliably!
+ if (SelfVolume != NULL && SelfVolume->RootDir != NULL)
+ SelfRootDir = SelfVolume->RootDir;
+ } // if
+
return FinishInitRefitLib();
}
static EFI_STATUS FinishInitRefitLib(VOID)
-{
+{
EFI_STATUS Status;
if (SelfRootDir == NULL) {
return EFI_SUCCESS;
}
+//
+// EFI variable read and write functions
+//
+
+// From gummiboot: Retrieve a raw EFI variable.
+// Returns EFI status
+EFI_STATUS EfivarGetRaw(EFI_GUID *vendor, CHAR16 *name, CHAR8 **buffer, UINTN *size) {
+ CHAR8 *buf;
+ UINTN l;
+ EFI_STATUS err;
+
+ l = sizeof(CHAR16 *) * EFI_MAXIMUM_VARIABLE_SIZE;
+ buf = AllocatePool(l);
+ if (!buf)
+ return EFI_OUT_OF_RESOURCES;
+
+ err = refit_call5_wrapper(RT->GetVariable, name, vendor, NULL, &l, buf);
+ if (EFI_ERROR(err) == EFI_SUCCESS) {
+ *buffer = buf;
+ if (size)
+ *size = l;
+ } else
+ MyFreePool(buf);
+ return err;
+} // EFI_STATUS EfivarGetRaw()
+
+// From gummiboot: Set an EFI variable
+EFI_STATUS EfivarSetRaw(EFI_GUID *vendor, CHAR16 *name, CHAR8 *buf, UINTN size, BOOLEAN persistent) {
+ UINT32 flags;
+
+ flags = EFI_VARIABLE_BOOTSERVICE_ACCESS|EFI_VARIABLE_RUNTIME_ACCESS;
+ if (persistent)
+ flags |= EFI_VARIABLE_NON_VOLATILE;
+
+ return refit_call5_wrapper(RT->SetVariable, name, vendor, flags, size, buf);
+} // EFI_STATUS EfivarSetRaw()
+
//
// list functions
//
VOID CreateList(OUT VOID ***ListPtr, OUT UINTN *ElementCount, IN UINTN InitialElementCount)
{
UINTN AllocateCount;
-
+
*ElementCount = InitialElementCount;
if (*ElementCount > 0) {
AllocateCount = (*ElementCount + 7) & ~7; // next multiple of 8
if (*ElementCount == 0)
*ListPtr = AllocatePool(sizeof(VOID *) * AllocateCount);
else
- *ListPtr = ReallocatePool(*ListPtr, sizeof(VOID *) * (*ElementCount), sizeof(VOID *) * AllocateCount);
+ *ListPtr = EfiReallocatePool(*ListPtr, sizeof(VOID *) * (*ElementCount), sizeof(VOID *) * AllocateCount);
}
(*ListPtr)[*ElementCount] = NewElement;
(*ElementCount)++;
VOID FreeList(IN OUT VOID ***ListPtr, IN OUT UINTN *ElementCount)
{
UINTN i;
-
- if (*ElementCount > 0) {
+
+ if ((*ElementCount > 0) && (**ListPtr != NULL)) {
for (i = 0; i < *ElementCount; i++) {
// TODO: call a user-provided routine for each element here
- FreePool((*ListPtr)[i]);
+ MyFreePool((*ListPtr)[i]);
}
- FreePool(*ListPtr);
+ MyFreePool(*ListPtr);
}
-}
+} // VOID FreeList()
//
// firmware device path discovery
EFI_LOADED_IMAGE *LoadedImage;
EFI_DEVICE_PATH *DevicePath;
BOOLEAN Seen;
-
+
MaxPaths--; // leave space for the terminating NULL pointer
-
+
// get all LoadedImage handles
- Status = LibLocateHandle(ByProtocol, &LoadedImageProtocol, NULL,
- &HandleCount, &Handles);
+ Status = LibLocateHandle(ByProtocol, &LoadedImageProtocol, NULL, &HandleCount, &Handles);
if (CheckError(Status, L"while listing LoadedImage handles")) {
if (HardcodedPathList) {
for (HardcodedIndex = 0; HardcodedPathList[HardcodedIndex] && PathCount < MaxPaths; HardcodedIndex++)
}
for (HandleIndex = 0; HandleIndex < HandleCount && PathCount < MaxPaths; HandleIndex++) {
Handle = Handles[HandleIndex];
-
+
Status = refit_call3_wrapper(BS->HandleProtocol, Handle, &LoadedImageProtocol, (VOID **) &LoadedImage);
if (EFI_ERROR(Status))
continue; // This can only happen if the firmware scewed up, ignore it.
-
+
Status = refit_call3_wrapper(BS->HandleProtocol, LoadedImage->DeviceHandle, &DevicePathProtocol, (VOID **) &DevicePath);
if (EFI_ERROR(Status))
continue; // This happens, ignore it.
-
+
// Only grab memory range nodes
if (DevicePathType(DevicePath) != HARDWARE_DEVICE_PATH || DevicePathSubType(DevicePath) != HW_MEMMAP_DP)
continue;
-
+
// Check if we have this device path in the list already
// WARNING: This assumes the first node in the device path is unique!
Seen = FALSE;
}
if (Seen)
continue;
-
+
PathList[PathCount++] = AppendDevicePath(DevicePath, LegacyLoaderMediaPath);
}
- FreePool(Handles);
-
+ MyFreePool(Handles);
+
if (HardcodedPathList) {
for (HardcodedIndex = 0; HardcodedPathList[HardcodedIndex] && PathCount < MaxPaths; HardcodedIndex++)
PathList[PathCount++] = HardcodedPathList[HardcodedIndex];
// volume functions
//
-static VOID ScanVolumeBootcode(IN OUT REFIT_VOLUME *Volume, OUT BOOLEAN *Bootable)
+// Return a pointer to a string containing a filesystem type name. If the
+// filesystem type is unknown, a blank (but non-null) string is returned.
+// The returned variable is a constant that should NOT be freed.
+static CHAR16 *FSTypeName(IN UINT32 TypeCode) {
+ CHAR16 *retval = NULL;
+
+ switch (TypeCode) {
+ case FS_TYPE_FAT:
+ retval = L" FAT";
+ break;
+ case FS_TYPE_HFSPLUS:
+ retval = L" HFS+";
+ break;
+ case FS_TYPE_EXT2:
+ retval = L" ext2";
+ break;
+ case FS_TYPE_EXT3:
+ retval = L" ext3";
+ break;
+ case FS_TYPE_EXT4:
+ retval = L" ext4";
+ break;
+ case FS_TYPE_REISERFS:
+ retval = L" ReiserFS";
+ break;
+ case FS_TYPE_BTRFS:
+ retval = L" Btrfs";
+ break;
+ case FS_TYPE_ISO9660:
+ retval = L" ISO-9660";
+ break;
+ default:
+ retval = L"";
+ break;
+ } // switch
+ return retval;
+} // CHAR16 *FSTypeName()
+
+// Identify the filesystem type and record the filesystem's UUID/serial number,
+// if possible. Expects a Buffer containing the first few (normally 4096) bytes
+// of the filesystem. Sets the filesystem type code in Volume->FSType and the
+// UUID/serial number in Volume->VolUuid. Note that the UUID value is recognized
+// differently for each filesystem, and is currently supported only for
+// ext2/3/4fs and ReiserFS. If the UUID can't be determined, it's set to 0. Also, the UUID
+// is just read directly into memory; it is *NOT* valid when displayed by
+// GuidAsString() or used in other GUID/UUID-manipulating functions. (As I
+// write, it's being used merely to detect partitions that are part of a
+// RAID 1 array.)
+static VOID SetFilesystemData(IN UINT8 *Buffer, IN UINTN BufferSize, IN OUT REFIT_VOLUME *Volume) {
+ UINT32 *Ext2Incompat, *Ext2Compat;
+ UINT16 *Magic16;
+ char *MagicString;
+
+ if ((Buffer != NULL) && (Volume != NULL)) {
+ SetMem(&(Volume->VolUuid), sizeof(EFI_GUID), 0);
+ Volume->FSType = FS_TYPE_UNKNOWN;
+
+ if (BufferSize >= 512) {
+ Magic16 = (UINT16*) (Buffer + 510);
+ if (*Magic16 == FAT_MAGIC) {
+ Volume->FSType = FS_TYPE_FAT;
+ return;
+ } // if
+ } // search for FAT magic
+
+ if (BufferSize >= (1024 + 100)) {
+ Magic16 = (UINT16*) (Buffer + 1024 + 56);
+ if (*Magic16 == EXT2_SUPER_MAGIC) { // ext2/3/4
+ Ext2Compat = (UINT32*) (Buffer + 1024 + 92);
+ Ext2Incompat = (UINT32*) (Buffer + 1024 + 96);
+ if ((*Ext2Incompat & 0x0040) || (*Ext2Incompat & 0x0200)) { // check for extents or flex_bg
+ Volume->FSType = FS_TYPE_EXT4;
+ } else if (*Ext2Compat & 0x0004) { // check for journal
+ Volume->FSType = FS_TYPE_EXT3;
+ } else { // none of these features; presume it's ext2...
+ Volume->FSType = FS_TYPE_EXT2;
+ }
+ CopyMem(&(Volume->VolUuid), Buffer + 1024 + 104, sizeof(EFI_GUID));
+ return;
+ }
+ } // search for ext2/3/4 magic
+
+ if (BufferSize >= (65536 + 100)) {
+ MagicString = (char*) (Buffer + 65536 + 52);
+ if ((CompareMem(MagicString, REISERFS_SUPER_MAGIC_STRING, 8) == 0) ||
+ (CompareMem(MagicString, REISER2FS_SUPER_MAGIC_STRING, 9) == 0) ||
+ (CompareMem(MagicString, REISER2FS_JR_SUPER_MAGIC_STRING, 9) == 0)) {
+ Volume->FSType = FS_TYPE_REISERFS;
+ CopyMem(&(Volume->VolUuid), Buffer + 65536 + 84, sizeof(EFI_GUID));
+ return;
+ } // if
+ } // search for ReiserFS magic
+
+ if (BufferSize >= (65536 + 64 + 8)) {
+ MagicString = (char*) (Buffer + 65536 + 64);
+ if (CompareMem(MagicString, BTRFS_SIGNATURE, 8) == 0) {
+ Volume->FSType = FS_TYPE_BTRFS;
+ return;
+ } // if
+ } // search for Btrfs magic
+
+ if (BufferSize >= (1024 + 2)) {
+ Magic16 = (UINT16*) (Buffer + 1024);
+ if ((*Magic16 == HFSPLUS_MAGIC1) || (*Magic16 == HFSPLUS_MAGIC2)) {
+ Volume->FSType = FS_TYPE_HFSPLUS;
+ return;
+ }
+ } // search for HFS+ magic
+ } // if (Buffer != NULL)
+
+} // UINT32 SetFilesystemData()
+
+static VOID ScanVolumeBootcode(REFIT_VOLUME *Volume, BOOLEAN *Bootable)
{
EFI_STATUS Status;
- UINT8 SectorBuffer[SECTOR_SIZE];
+ UINT8 Buffer[SAMPLE_SIZE];
UINTN i;
MBR_PARTITION_INFO *MbrTable;
- BOOLEAN MbrTableFound;
-
+ BOOLEAN MbrTableFound = FALSE;
+
Volume->HasBootCode = FALSE;
Volume->OSIconName = NULL;
Volume->OSName = NULL;
*Bootable = FALSE;
-
+
if (Volume->BlockIO == NULL)
return;
- if (Volume->BlockIO->Media->BlockSize > SECTOR_SIZE)
+ if (Volume->BlockIO->Media->BlockSize > SAMPLE_SIZE)
return; // our buffer is too small...
-
+
// look at the boot sector (this is used for both hard disks and El Torito images!)
Status = refit_call5_wrapper(Volume->BlockIO->ReadBlocks,
Volume->BlockIO, Volume->BlockIO->Media->MediaId,
- Volume->BlockIOOffset, SECTOR_SIZE, SectorBuffer);
+ Volume->BlockIOOffset, SAMPLE_SIZE, Buffer);
if (!EFI_ERROR(Status)) {
-
- if (*((UINT16 *)(SectorBuffer + 510)) == 0xaa55 && SectorBuffer[0] != 0) {
+
+ SetFilesystemData(Buffer, SAMPLE_SIZE, Volume);
+ if ((*((UINT16 *)(Buffer + 510)) == 0xaa55 && Buffer[0] != 0) && (FindMem(Buffer, 512, "EXFAT", 5) == -1)) {
*Bootable = TRUE;
Volume->HasBootCode = TRUE;
}
-
+
// detect specific boot codes
- if (CompareMem(SectorBuffer + 2, "LILO", 4) == 0 ||
- CompareMem(SectorBuffer + 6, "LILO", 4) == 0 ||
- CompareMem(SectorBuffer + 3, "SYSLINUX", 8) == 0 ||
- FindMem(SectorBuffer, SECTOR_SIZE, "ISOLINUX", 8) >= 0) {
+ if (CompareMem(Buffer + 2, "LILO", 4) == 0 ||
+ CompareMem(Buffer + 6, "LILO", 4) == 0 ||
+ CompareMem(Buffer + 3, "SYSLINUX", 8) == 0 ||
+ FindMem(Buffer, SECTOR_SIZE, "ISOLINUX", 8) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"linux";
Volume->OSName = L"Linux";
-
- } else if (FindMem(SectorBuffer, 512, "Geom\0Hard Disk\0Read\0 Error", 26) >= 0) { // GRUB
+
+ } else if (FindMem(Buffer, 512, "Geom\0Hard Disk\0Read\0 Error", 26) >= 0) { // GRUB
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"grub,linux";
Volume->OSName = L"Linux";
-
- } else if ((*((UINT32 *)(SectorBuffer + 502)) == 0 &&
- *((UINT32 *)(SectorBuffer + 506)) == 50000 &&
- *((UINT16 *)(SectorBuffer + 510)) == 0xaa55) ||
- FindMem(SectorBuffer, SECTOR_SIZE, "Starting the BTX loader", 23) >= 0) {
+
+// // Below doesn't produce a bootable entry, so commented out for the moment....
+// // GRUB in BIOS boot partition:
+// } else if (FindMem(Buffer, 512, "Geom\0Read\0 Error", 16) >= 0) {
+// Volume->HasBootCode = TRUE;
+// Volume->OSIconName = L"grub,linux";
+// Volume->OSName = L"Linux";
+// Volume->VolName = L"BIOS Boot Partition";
+// *Bootable = TRUE;
+
+ } else if ((*((UINT32 *)(Buffer + 502)) == 0 &&
+ *((UINT32 *)(Buffer + 506)) == 50000 &&
+ *((UINT16 *)(Buffer + 510)) == 0xaa55) ||
+ FindMem(Buffer, SECTOR_SIZE, "Starting the BTX loader", 23) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"freebsd";
Volume->OSName = L"FreeBSD";
-
- } else if (FindMem(SectorBuffer, 512, "!Loading", 8) >= 0 ||
- FindMem(SectorBuffer, SECTOR_SIZE, "/cdboot\0/CDBOOT\0", 16) >= 0) {
+
+ } else if (FindMem(Buffer, 512, "!Loading", 8) >= 0 ||
+ FindMem(Buffer, SECTOR_SIZE, "/cdboot\0/CDBOOT\0", 16) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"openbsd";
Volume->OSName = L"OpenBSD";
-
- } else if (FindMem(SectorBuffer, 512, "Not a bootxx image", 18) >= 0 ||
- *((UINT32 *)(SectorBuffer + 1028)) == 0x7886b6d1) {
+
+ } else if (FindMem(Buffer, 512, "Not a bootxx image", 18) >= 0 ||
+ *((UINT32 *)(Buffer + 1028)) == 0x7886b6d1) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"netbsd";
Volume->OSName = L"NetBSD";
-
- } else if (FindMem(SectorBuffer, SECTOR_SIZE, "NTLDR", 5) >= 0) {
+
+ } else if (FindMem(Buffer, SECTOR_SIZE, "NTLDR", 5) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"win";
Volume->OSName = L"Windows";
-
- } else if (FindMem(SectorBuffer, SECTOR_SIZE, "BOOTMGR", 7) >= 0) {
+
+ } else if (FindMem(Buffer, SECTOR_SIZE, "BOOTMGR", 7) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"winvista,win";
Volume->OSName = L"Windows";
-
- } else if (FindMem(SectorBuffer, 512, "CPUBOOT SYS", 11) >= 0 ||
- FindMem(SectorBuffer, 512, "KERNEL SYS", 11) >= 0) {
+
+ } else if (FindMem(Buffer, 512, "CPUBOOT SYS", 11) >= 0 ||
+ FindMem(Buffer, 512, "KERNEL SYS", 11) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"freedos";
Volume->OSName = L"FreeDOS";
-
- } else if (FindMem(SectorBuffer, 512, "OS2LDR", 6) >= 0 ||
- FindMem(SectorBuffer, 512, "OS2BOOT", 7) >= 0) {
+
+ } else if (FindMem(Buffer, 512, "OS2LDR", 6) >= 0 ||
+ FindMem(Buffer, 512, "OS2BOOT", 7) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"ecomstation";
Volume->OSName = L"eComStation";
-
- } else if (FindMem(SectorBuffer, 512, "Be Boot Loader", 14) >= 0) {
+
+ } else if (FindMem(Buffer, 512, "Be Boot Loader", 14) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"beos";
Volume->OSName = L"BeOS";
-
- } else if (FindMem(SectorBuffer, 512, "yT Boot Loader", 14) >= 0) {
+
+ } else if (FindMem(Buffer, 512, "yT Boot Loader", 14) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"zeta,beos";
Volume->OSName = L"ZETA";
-
- } else if (FindMem(SectorBuffer, 512, "\x04" "beos\x06" "system\x05" "zbeos", 18) >= 0 ||
- FindMem(SectorBuffer, 512, "\x06" "system\x0c" "haiku_loader", 20) >= 0) {
+
+ } else if (FindMem(Buffer, 512, "\x04" "beos\x06" "system\x05" "zbeos", 18) >= 0 ||
+ FindMem(Buffer, 512, "\x06" "system\x0c" "haiku_loader", 20) >= 0) {
Volume->HasBootCode = TRUE;
Volume->OSIconName = L"haiku,beos";
Volume->OSName = L"Haiku";
}
-
+
// NOTE: If you add an operating system with a name that starts with 'W' or 'L', you
// need to fix AddLegacyEntry in main.c.
-
+
#if REFIT_DEBUG > 0
Print(L" Result of bootcode detection: %s %s (%s)\n",
Volume->HasBootCode ? L"bootable" : L"non-bootable",
Volume->OSName, Volume->OSIconName);
#endif
-
- if (FindMem(SectorBuffer, 512, "Non-system disk", 15) >= 0) // dummy FAT boot sector
+
+ // dummy FAT boot sector (created by OS X's newfs_msdos)
+ if (FindMem(Buffer, 512, "Non-system disk", 15) >= 0)
+ Volume->HasBootCode = FALSE;
+
+ // dummy FAT boot sector (created by Linux's mkdosfs)
+ if (FindMem(Buffer, 512, "This is not a bootable disk", 27) >= 0)
Volume->HasBootCode = FALSE;
-
+
+ // dummy FAT boot sector (created by Windows)
+ if (FindMem(Buffer, 512, "Press any key to restart", 24) >= 0)
+ Volume->HasBootCode = FALSE;
+
// check for MBR partition table
- if (*((UINT16 *)(SectorBuffer + 510)) == 0xaa55) {
- MbrTableFound = FALSE;
- MbrTable = (MBR_PARTITION_INFO *)(SectorBuffer + 446);
+ if (*((UINT16 *)(Buffer + 510)) == 0xaa55) {
+ MbrTable = (MBR_PARTITION_INFO *)(Buffer + 446);
for (i = 0; i < 4; i++)
if (MbrTable[i].StartLBA && MbrTable[i].Size)
MbrTableFound = TRUE;
CopyMem(Volume->MbrPartitionTable, MbrTable, 4 * 16);
}
}
-
+
} else {
#if REFIT_DEBUG > 0
CheckError(Status, L"while reading boot sector");
#endif
}
-}
+} /* VOID ScanVolumeBootcode() */
-// default volume icon based on disk kind
-static VOID ScanVolumeDefaultIcon(IN OUT REFIT_VOLUME *Volume)
+// Set default volume badge icon based on /.VolumeBadge.{icns|png} file or disk kind
+VOID SetVolumeBadgeIcon(REFIT_VOLUME *Volume)
{
- switch (Volume->DiskKind) {
- case DISK_KIND_INTERNAL:
- Volume->VolBadgeImage = BuiltinIcon(BUILTIN_ICON_VOL_INTERNAL);
- break;
- case DISK_KIND_EXTERNAL:
- Volume->VolBadgeImage = BuiltinIcon(BUILTIN_ICON_VOL_EXTERNAL);
- break;
- case DISK_KIND_OPTICAL:
- Volume->VolBadgeImage = BuiltinIcon(BUILTIN_ICON_VOL_OPTICAL);
- break;
- } // switch()
-}
+ if (Volume->VolBadgeImage == NULL) {
+ Volume->VolBadgeImage = egLoadIconAnyType(Volume->RootDir, L"", L".VolumeBadge", GlobalConfig.IconSizes[ICON_SIZE_BADGE]);
+ }
+
+ if (Volume->VolBadgeImage == NULL) {
+ switch (Volume->DiskKind) {
+ case DISK_KIND_INTERNAL:
+ Volume->VolBadgeImage = BuiltinIcon(BUILTIN_ICON_VOL_INTERNAL);
+ break;
+ case DISK_KIND_EXTERNAL:
+ Volume->VolBadgeImage = BuiltinIcon(BUILTIN_ICON_VOL_EXTERNAL);
+ break;
+ case DISK_KIND_OPTICAL:
+ Volume->VolBadgeImage = BuiltinIcon(BUILTIN_ICON_VOL_OPTICAL);
+ break;
+ case DISK_KIND_NET:
+ Volume->VolBadgeImage = BuiltinIcon(BUILTIN_ICON_VOL_NET);
+ break;
+ } // switch()
+ }
+} // VOID SetVolumeBadgeIcon()
+
+// Return a string representing the input size in IEEE-1541 units.
+// The calling function is responsible for freeing the allocated memory.
+static CHAR16 *SizeInIEEEUnits(UINT64 SizeInBytes) {
+ UINT64 SizeInIeee;
+ UINTN Index = 0, NumPrefixes;
+ CHAR16 *Units, *Prefixes = L" KMGTPEZ";
+ CHAR16 *TheValue;
+
+ TheValue = AllocateZeroPool(sizeof(CHAR16) * 256);
+ if (TheValue != NULL) {
+ NumPrefixes = StrLen(Prefixes);
+ SizeInIeee = SizeInBytes;
+ while ((SizeInIeee > 1024) && (Index < (NumPrefixes - 1))) {
+ Index++;
+ SizeInIeee /= 1024;
+ } // while
+ if (Prefixes[Index] == ' ') {
+ Units = StrDuplicate(L"-byte");
+ } else {
+ Units = StrDuplicate(L" iB");
+ Units[1] = Prefixes[Index];
+ } // if/else
+ SPrint(TheValue, 255, L"%ld%s", SizeInIeee, Units);
+ } // if
+ return TheValue;
+} // CHAR16 *SizeInIEEEUnits()
+
+// Return a name for the volume. Ideally this should be the label for the
+// filesystem it contains, but this function falls back to describing the
+// filesystem by size (200 MiB, etc.) and/or type (ext2, HFS+, etc.), if
+// this information can be extracted.
+// The calling function is responsible for freeing the memory allocated
+// for the name string.
+static CHAR16 *GetVolumeName(REFIT_VOLUME *Volume) {
+ EFI_FILE_SYSTEM_INFO *FileSystemInfoPtr = NULL;
+ CHAR16 *FoundName = NULL;
+ CHAR16 *SISize, *TypeName;
+
+ if (Volume->RootDir != NULL) {
+ FileSystemInfoPtr = LibFileSystemInfo(Volume->RootDir);
+ }
+
+ if ((FileSystemInfoPtr != NULL) && (FileSystemInfoPtr->VolumeLabel != NULL) &&
+ (StrLen(FileSystemInfoPtr->VolumeLabel) > 0)) {
+ FoundName = StrDuplicate(FileSystemInfoPtr->VolumeLabel);
+ }
+
+ // Special case: Old versions of the rEFInd HFS+ driver always returns label of "HFS+ volume", so wipe
+ // this so that we can build a new name that includes the size....
+ if ((FoundName != NULL) && (StrCmp(FoundName, L"HFS+ volume") == 0) && (Volume->FSType == FS_TYPE_HFSPLUS)) {
+ MyFreePool(FoundName);
+ FoundName = NULL;
+ } // if rEFInd HFS+ driver suspected
+
+ // If no filesystem name, try to use the partition name....
+ if ((FoundName == NULL) && (Volume->PartName != NULL) && (StrLen(Volume->PartName) > 0) &&
+ !IsIn(Volume->PartName, IGNORE_PARTITION_NAMES)) {
+ FoundName = StrDuplicate(Volume->PartName);
+ } // if use partition name
+
+ // No filesystem or acceptable partition name, so use fs type and size
+ if ((FoundName == NULL) && (FileSystemInfoPtr != NULL)) {
+ FoundName = AllocateZeroPool(sizeof(CHAR16) * 256);
+ if (FoundName != NULL) {
+ SISize = SizeInIEEEUnits(FileSystemInfoPtr->VolumeSize);
+ SPrint(FoundName, 255, L"%s%s volume", SISize, FSTypeName(Volume->FSType));
+ MyFreePool(SISize);
+ } // if allocated memory OK
+ } // if (FoundName == NULL)
+
+ MyFreePool(FileSystemInfoPtr);
+
+ if (FoundName == NULL) {
+ FoundName = AllocateZeroPool(sizeof(CHAR16) * 256);
+ if (FoundName != NULL) {
+ TypeName = FSTypeName(Volume->FSType); // NOTE: Don't free TypeName; function returns constant
+ if (StrLen(TypeName) > 0)
+ SPrint(FoundName, 255, L"%s volume", TypeName);
+ else
+ SPrint(FoundName, 255, L"unknown volume");
+ } // if allocated memory OK
+ } // if
-static VOID ScanVolume(IN OUT REFIT_VOLUME *Volume)
+ // TODO: Above could be improved/extended, in case filesystem name is not found,
+ // such as:
+ // - use or add disk/partition number (e.g., "(hd0,2)")
+
+ // Desperate fallback name....
+ if (FoundName == NULL) {
+ FoundName = StrDuplicate(L"unknown volume");
+ }
+ return FoundName;
+} // static CHAR16 *GetVolumeName()
+
+// Determine the unique GUID of the volume and store it.
+static VOID SetPartGuidAndName(REFIT_VOLUME *Volume, EFI_DEVICE_PATH_PROTOCOL *DevicePath) {
+ HARDDRIVE_DEVICE_PATH *HdDevicePath;
+
+ if (Volume == NULL)
+ return;
+
+ if ((DevicePath->Type == MEDIA_DEVICE_PATH) && (DevicePath->SubType == MEDIA_HARDDRIVE_DP)) {
+ HdDevicePath = (HARDDRIVE_DEVICE_PATH*) DevicePath;
+ if (HdDevicePath->SignatureType == SIGNATURE_TYPE_GUID) {
+ Volume->PartGuid = *((EFI_GUID*) HdDevicePath->Signature);
+ Volume->PartName = PartNameFromGuid(&(Volume->PartGuid));
+ } // if
+ } // if
+} // VOID SetPartGuid()
+
+VOID ScanVolume(REFIT_VOLUME *Volume)
{
EFI_STATUS Status;
EFI_DEVICE_PATH *DevicePath, *NextDevicePath;
EFI_DEVICE_PATH *DiskDevicePath, *RemainingDevicePath;
EFI_HANDLE WholeDiskHandle;
UINTN PartialLength;
- EFI_FILE_SYSTEM_INFO *FileSystemInfoPtr;
BOOLEAN Bootable;
-
+
// get device path
Volume->DevicePath = DuplicateDevicePath(DevicePathFromHandle(Volume->DeviceHandle));
#if REFIT_DEBUG > 0
#endif
}
#endif
-
+
Volume->DiskKind = DISK_KIND_INTERNAL; // default
-
+
// get block i/o
Status = refit_call3_wrapper(BS->HandleProtocol, Volume->DeviceHandle, &BlockIoProtocol, (VOID **) &(Volume->BlockIO));
if (EFI_ERROR(Status)) {
if (Volume->BlockIO->Media->BlockSize == 2048)
Volume->DiskKind = DISK_KIND_OPTICAL;
}
-
+
// scan for bootcode and MBR table
Bootable = FALSE;
ScanVolumeBootcode(Volume, &Bootable);
-
+
// detect device type
DevicePath = Volume->DevicePath;
while (DevicePath != NULL && !IsDevicePathEndType(DevicePath)) {
NextDevicePath = NextDevicePathNode(DevicePath);
-
+
+ if (DevicePathType(DevicePath) == MEDIA_DEVICE_PATH) {
+ SetPartGuidAndName(Volume, DevicePath);
+ }
if (DevicePathType(DevicePath) == MESSAGING_DEVICE_PATH &&
(DevicePathSubType(DevicePath) == MSG_USB_DP ||
DevicePathSubType(DevicePath) == MSG_USB_CLASS_DP ||
Volume->DiskKind = DISK_KIND_OPTICAL; // El Torito entry -> optical disk
Bootable = TRUE;
}
-
+
if (DevicePathType(DevicePath) == MEDIA_DEVICE_PATH && DevicePathSubType(DevicePath) == MEDIA_VENDOR_DP) {
Volume->IsAppleLegacy = TRUE; // legacy BIOS device entry
// TODO: also check for Boot Camp GUID
Bootable = FALSE; // this handle's BlockIO is just an alias for the whole device
}
-
+
if (DevicePathType(DevicePath) == MESSAGING_DEVICE_PATH) {
// make a device path for the whole device
PartialLength = (UINT8 *)NextDevicePath - (UINT8 *)(Volume->DevicePath);
DiskDevicePath = (EFI_DEVICE_PATH *)AllocatePool(PartialLength + sizeof(EFI_DEVICE_PATH));
CopyMem(DiskDevicePath, Volume->DevicePath, PartialLength);
CopyMem((UINT8 *)DiskDevicePath + PartialLength, EndDevicePath, sizeof(EFI_DEVICE_PATH));
-
+
// get the handle for that path
RemainingDevicePath = DiskDevicePath;
- //Print(L" * looking at %s\n", DevicePathToStr(RemainingDevicePath));
Status = refit_call3_wrapper(BS->LocateDevicePath, &BlockIoProtocol, &RemainingDevicePath, &WholeDiskHandle);
- //Print(L" * remaining: %s\n", DevicePathToStr(RemainingDevicePath));
FreePool(DiskDevicePath);
-
+
if (!EFI_ERROR(Status)) {
//Print(L" - original handle: %08x - disk handle: %08x\n", (UINT32)DeviceHandle, (UINT32)WholeDiskHandle);
-
+
// get the device path for later
Status = refit_call3_wrapper(BS->HandleProtocol, WholeDiskHandle, &DevicePathProtocol, (VOID **) &DiskDevicePath);
if (!EFI_ERROR(Status)) {
Volume->WholeDiskDevicePath = DuplicateDevicePath(DiskDevicePath);
}
-
+
// look at the BlockIO protocol
- Status = refit_call3_wrapper(BS->HandleProtocol, WholeDiskHandle, &BlockIoProtocol, (VOID **) &Volume->WholeDiskBlockIO);
+ Status = refit_call3_wrapper(BS->HandleProtocol, WholeDiskHandle, &BlockIoProtocol,
+ (VOID **) &Volume->WholeDiskBlockIO);
if (!EFI_ERROR(Status)) {
-
+
// check the media block size
if (Volume->WholeDiskBlockIO->Media->BlockSize == 2048)
Volume->DiskKind = DISK_KIND_OPTICAL;
-
+
} else {
Volume->WholeDiskBlockIO = NULL;
//CheckError(Status, L"from HandleProtocol");
} //else
// CheckError(Status, L"from LocateDevicePath");
}
-
+
DevicePath = NextDevicePath;
} // while
-
+
if (!Bootable) {
#if REFIT_DEBUG > 0
if (Volume->HasBootCode)
#endif
Volume->HasBootCode = FALSE;
}
-
- // default volume icon based on disk kind
- ScanVolumeDefaultIcon(Volume);
-
+
// open the root directory of the volume
Volume->RootDir = LibOpenRoot(Volume->DeviceHandle);
+
+ // Set volume icon based on .VolumeBadge icon or disk kind
+ SetVolumeBadgeIcon(Volume);
+
+ Volume->VolName = GetVolumeName(Volume);
+
if (Volume->RootDir == NULL) {
+ Volume->IsReadable = FALSE;
return;
- }
-
- // get volume name
- FileSystemInfoPtr = LibFileSystemInfo(Volume->RootDir);
- if (FileSystemInfoPtr != NULL) {
- Volume->VolName = StrDuplicate(FileSystemInfoPtr->VolumeLabel);
- FreePool(FileSystemInfoPtr);
+ } else {
+ Volume->IsReadable = TRUE;
}
- // TODO: if no official volume name is found or it is empty, use something else, e.g.:
- // - name from bytes 3 to 10 of the boot sector
- // - partition number
- // - name derived from file system type or partition type
-
- // get custom volume icon if present
- if (FileExists(Volume->RootDir, L".VolumeIcon.icns"))
- Volume->VolBadgeImage = LoadIcns(Volume->RootDir, L".VolumeIcon.icns", 32);
-}
+ // get custom volume icons if present
+ if (!Volume->VolIconImage)
+ Volume->VolIconImage = egLoadIconAnyType(Volume->RootDir, L"", L".VolumeIcon", GlobalConfig.IconSizes[ICON_SIZE_BIG]);
+} // ScanVolume()
static VOID ScanExtendedPartition(REFIT_VOLUME *WholeDiskVolume, MBR_PARTITION_INFO *MbrEntry)
{
UINT8 SectorBuffer[512];
BOOLEAN Bootable;
MBR_PARTITION_INFO *EMbrTable;
-
+
ExtBase = MbrEntry->StartLBA;
-
+
for (ExtCurrent = ExtBase; ExtCurrent; ExtCurrent = NextExtCurrent) {
// read current EMBR
Status = refit_call5_wrapper(WholeDiskVolume->BlockIO->ReadBlocks,
if (*((UINT16 *)(SectorBuffer + 510)) != 0xaa55)
break;
EMbrTable = (MBR_PARTITION_INFO *)(SectorBuffer + 446);
-
+
// scan logical partitions in this EMBR
NextExtCurrent = 0;
for (i = 0; i < 4; i++) {
NextExtCurrent = ExtBase + EMbrTable[i].StartLBA;
break;
} else {
-
+
// found a logical partition
Volume = AllocateZeroPool(sizeof(REFIT_VOLUME));
Volume->DiskKind = WholeDiskVolume->DiskKind;
Volume->IsMbrPartition = TRUE;
Volume->MbrPartitionIndex = LogicalPartitionIndex++;
- Volume->VolName = PoolPrint(L"Partition %d", Volume->MbrPartitionIndex + 1);
+ Volume->VolName = AllocateZeroPool(256 * sizeof(UINT16));
+ SPrint(Volume->VolName, 255, L"Partition %d", Volume->MbrPartitionIndex + 1);
Volume->BlockIO = WholeDiskVolume->BlockIO;
Volume->BlockIOOffset = ExtCurrent + EMbrTable[i].StartLBA;
Volume->WholeDiskBlockIO = WholeDiskVolume->BlockIO;
-
+
Bootable = FALSE;
ScanVolumeBootcode(Volume, &Bootable);
if (!Bootable)
Volume->HasBootCode = FALSE;
-
- ScanVolumeDefaultIcon(Volume);
-
+
+ SetVolumeBadgeIcon(Volume);
+
AddListElement((VOID ***) &Volumes, &VolumesCount, Volume);
-
+
}
}
}
-}
+} /* VOID ScanExtendedPartition() */
VOID ScanVolumes(VOID)
{
EFI_STATUS Status;
- UINTN HandleCount = 0;
- UINTN HandleIndex;
EFI_HANDLE *Handles;
REFIT_VOLUME *Volume, *WholeDiskVolume;
- UINTN VolumeIndex, VolumeIndex2;
MBR_PARTITION_INFO *MbrTable;
+ UINTN HandleCount = 0;
+ UINTN HandleIndex;
+ UINTN VolumeIndex, VolumeIndex2;
UINTN PartitionIndex;
+ UINTN SectorSum, i, VolNumber = 0;
UINT8 *SectorBuffer1, *SectorBuffer2;
- UINTN SectorSum, i;
+ EFI_GUID *UuidList;
+ EFI_GUID NullUuid = NULL_GUID_VALUE;
- FreePool(Volumes);
+ MyFreePool(Volumes);
Volumes = NULL;
VolumesCount = 0;
+ ForgetPartitionTables();
// get all filesystem handles
Status = LibLocateHandle(ByProtocol, &BlockIoProtocol, NULL, &HandleCount, &Handles);
- // was: &FileSystemProtocol
- if (Status == EFI_NOT_FOUND)
+ UuidList = AllocateZeroPool(sizeof(EFI_GUID) * HandleCount);
+ if (Status == EFI_NOT_FOUND) {
return; // no filesystems. strange, but true...
+ }
if (CheckError(Status, L"while listing all file systems"))
return;
for (HandleIndex = 0; HandleIndex < HandleCount; HandleIndex++) {
Volume = AllocateZeroPool(sizeof(REFIT_VOLUME));
Volume->DeviceHandle = Handles[HandleIndex];
+ AddPartitionTable(Volume);
ScanVolume(Volume);
+ if (UuidList) {
+ UuidList[HandleIndex] = Volume->VolUuid;
+ for (i = 0; i < HandleIndex; i++) {
+ if ((CompareMem(&(Volume->VolUuid), &(UuidList[i]), sizeof(EFI_GUID)) == 0) &&
+ (CompareMem(&(Volume->VolUuid), &NullUuid, sizeof(EFI_GUID)) != 0)) { // Duplicate filesystem UUID
+ Volume->IsReadable = FALSE;
+ } // if
+ } // for
+ } // if
+ if (Volume->IsReadable)
+ Volume->VolNumber = VolNumber++;
+ else
+ Volume->VolNumber = VOL_UNREADABLE;
AddListElement((VOID ***) &Volumes, &VolumesCount, Volume);
if (Volume->DeviceHandle == SelfLoadedImage->DeviceHandle)
SelfVolume = Volume;
}
- FreePool(Handles);
+ MyFreePool(Handles);
if (SelfVolume == NULL)
Print(L"WARNING: SelfVolume not found");
-
+
// second pass: relate partitions and whole disk devices
for (VolumeIndex = 0; VolumeIndex < VolumesCount; VolumeIndex++) {
Volume = Volumes[VolumeIndex];
Volume->BlockIO != Volume->WholeDiskBlockIO) {
for (VolumeIndex2 = 0; VolumeIndex2 < VolumesCount; VolumeIndex2++) {
if (Volumes[VolumeIndex2]->BlockIO == Volume->WholeDiskBlockIO &&
- Volumes[VolumeIndex2]->BlockIOOffset == 0)
+ Volumes[VolumeIndex2]->BlockIOOffset == 0) {
WholeDiskVolume = Volumes[VolumeIndex2];
+ }
}
}
// check size
if ((UINT64)(MbrTable[PartitionIndex].Size) != Volume->BlockIO->Media->LastBlock + 1)
continue;
-
+
// compare boot sector read through offset vs. directly
Status = refit_call5_wrapper(Volume->BlockIO->ReadBlocks,
Volume->BlockIO, Volume->BlockIO->Media->MediaId,
SectorSum += SectorBuffer1[i];
if (SectorSum < 1000)
continue;
-
+
// TODO: mark entry as non-bootable if it is an extended partition
-
+
// now we're reasonably sure the association is correct...
Volume->IsMbrPartition = TRUE;
Volume->MbrPartitionIndex = PartitionIndex;
- if (Volume->VolName == NULL)
- Volume->VolName = PoolPrint(L"Partition %d", PartitionIndex + 1);
+ if (Volume->VolName == NULL) {
+ Volume->VolName = AllocateZeroPool(sizeof(CHAR16) * 256);
+ SPrint(Volume->VolName, 255, L"Partition %d", PartitionIndex + 1);
+ }
break;
}
-
- FreePool(SectorBuffer1);
- FreePool(SectorBuffer2);
+
+ MyFreePool(SectorBuffer1);
+ MyFreePool(SectorBuffer2);
}
-
- }
+ } // for
} /* VOID ScanVolumes() */
static VOID UninitVolumes(VOID)
{
REFIT_VOLUME *Volume;
UINTN VolumeIndex;
-
+
for (VolumeIndex = 0; VolumeIndex < VolumesCount; VolumeIndex++) {
Volume = Volumes[VolumeIndex];
-
+
if (Volume->RootDir != NULL) {
refit_call1_wrapper(Volume->RootDir->Close, Volume->RootDir);
Volume->RootDir = NULL;
}
-
+
Volume->DeviceHandle = NULL;
Volume->BlockIO = NULL;
Volume->WholeDiskBlockIO = NULL;
UINTN VolumeIndex;
EFI_DEVICE_PATH *RemainingDevicePath;
EFI_HANDLE DeviceHandle, WholeDiskHandle;
-
+
for (VolumeIndex = 0; VolumeIndex < VolumesCount; VolumeIndex++) {
Volume = Volumes[VolumeIndex];
-
+
if (Volume->DevicePath != NULL) {
// get the handle for that path
RemainingDevicePath = Volume->DevicePath;
Status = refit_call3_wrapper(BS->LocateDevicePath, &BlockIoProtocol, &RemainingDevicePath, &DeviceHandle);
-
+
if (!EFI_ERROR(Status)) {
Volume->DeviceHandle = DeviceHandle;
if (!EFI_ERROR(Status)) {
// get the BlockIO protocol
- Status = refit_call3_wrapper(BS->HandleProtocol, WholeDiskHandle, &BlockIoProtocol, (VOID **) &Volume->WholeDiskBlockIO);
+ Status = refit_call3_wrapper(BS->HandleProtocol, WholeDiskHandle, &BlockIoProtocol,
+ (VOID **) &Volume->WholeDiskBlockIO);
if (EFI_ERROR(Status)) {
Volume->WholeDiskBlockIO = NULL;
CheckError(Status, L"from HandleProtocol");
VOID *Buffer;
UINTN LastBufferSize, BufferSize;
INTN IterCount;
-
+
for (;;) {
-
+
// free pointer from last call
if (*DirEntry != NULL) {
- FreePool(*DirEntry);
- *DirEntry = NULL;
+ FreePool(*DirEntry);
+ *DirEntry = NULL;
}
-
+
// read next directory entry
LastBufferSize = BufferSize = 256;
Buffer = AllocatePool(BufferSize);
Print(L"Reallocating buffer from %d to %d\n", LastBufferSize, BufferSize);
#endif
}
- Buffer = ReallocatePool(Buffer, LastBufferSize, BufferSize);
+ Buffer = EfiReallocatePool(Buffer, LastBufferSize, BufferSize);
LastBufferSize = BufferSize;
}
if (EFI_ERROR(Status)) {
- FreePool(Buffer);
+ MyFreePool(Buffer);
+ Buffer = NULL;
break;
}
-
+
// check for end of listing
if (BufferSize == 0) { // end of directory listing
- FreePool(Buffer);
+ MyFreePool(Buffer);
+ Buffer = NULL;
break;
}
-
+
// entry is ready to be returned
*DirEntry = (EFI_FILE_INFO *)Buffer;
-
+
// filter results
if (FilterMode == 1) { // only return directories
if (((*DirEntry)->Attribute & EFI_FILE_DIRECTORY))
break;
} else // no filter or unknown filter -> return everything
break;
-
+
}
return Status;
}
DirIter->LastFileInfo = NULL;
}
+#ifndef __MAKEWITH_GNUEFI
+EFI_UNICODE_COLLATION_PROTOCOL *mUnicodeCollation = NULL;
+
+static EFI_STATUS
+InitializeUnicodeCollationProtocol (VOID)
+{
+ EFI_STATUS Status;
+
+ if (mUnicodeCollation != NULL) {
+ return EFI_SUCCESS;
+ }
+
+ //
+ // BUGBUG: Proper impelmentation is to locate all Unicode Collation Protocol
+ // instances first and then select one which support English language.
+ // Current implementation just pick the first instance.
+ //
+ Status = gBS->LocateProtocol (
+ &gEfiUnicodeCollation2ProtocolGuid,
+ NULL,
+ (VOID **) &mUnicodeCollation
+ );
+ if (EFI_ERROR(Status)) {
+ Status = gBS->LocateProtocol (
+ &gEfiUnicodeCollationProtocolGuid,
+ NULL,
+ (VOID **) &mUnicodeCollation
+ );
+
+ }
+ return Status;
+}
+
+static BOOLEAN
+MetaiMatch (IN CHAR16 *String, IN CHAR16 *Pattern)
+{
+ if (!mUnicodeCollation) {
+ InitializeUnicodeCollationProtocol();
+ }
+ if (mUnicodeCollation)
+ return mUnicodeCollation->MetaiMatch (mUnicodeCollation, String, Pattern);
+ return FALSE; // Shouldn't happen
+}
+
+static VOID StrLwr (IN OUT CHAR16 *Str) {
+ if (!mUnicodeCollation) {
+ InitializeUnicodeCollationProtocol();
+ }
+ if (mUnicodeCollation)
+ mUnicodeCollation->StrLwr (mUnicodeCollation, Str);
+}
+
+#endif
+
BOOLEAN DirIterNext(IN OUT REFIT_DIR_ITER *DirIter, IN UINTN FilterMode, IN CHAR16 *FilePattern OPTIONAL,
OUT EFI_FILE_INFO **DirEntry)
{
+ BOOLEAN KeepGoing = TRUE;
+ UINTN i;
+ CHAR16 *OnePattern;
+
if (DirIter->LastFileInfo != NULL) {
- FreePool(DirIter->LastFileInfo);
- DirIter->LastFileInfo = NULL;
+ FreePool(DirIter->LastFileInfo);
+ DirIter->LastFileInfo = NULL;
}
-
+
if (EFI_ERROR(DirIter->LastStatus))
return FALSE; // stop iteration
-
- for (;;) {
+
+ do {
DirIter->LastStatus = DirNextEntry(DirIter->DirHandle, &(DirIter->LastFileInfo), FilterMode);
if (EFI_ERROR(DirIter->LastStatus))
- return FALSE;
+ return FALSE;
if (DirIter->LastFileInfo == NULL) // end of listing
return FALSE;
if (FilePattern != NULL) {
if ((DirIter->LastFileInfo->Attribute & EFI_FILE_DIRECTORY))
- break;
- if (MetaiMatch(DirIter->LastFileInfo->FileName, FilePattern))
- break;
+ KeepGoing = FALSE;
+ i = 0;
+ while (KeepGoing && (OnePattern = FindCommaDelimited(FilePattern, i++)) != NULL) {
+ if (MetaiMatch(DirIter->LastFileInfo->FileName, OnePattern))
+ KeepGoing = FALSE;
+ } // while
// else continue loop
} else
break;
- }
-
+ } while (KeepGoing && FilePattern);
+
*DirEntry = DirIter->LastFileInfo;
return TRUE;
}
EFI_STATUS DirIterClose(IN OUT REFIT_DIR_ITER *DirIter)
{
- if (DirIter->LastFileInfo != NULL) {
- FreePool(DirIter->LastFileInfo);
- DirIter->LastFileInfo = NULL;
- }
- if (DirIter->CloseDirHandle)
- refit_call1_wrapper(DirIter->DirHandle->Close, DirIter->DirHandle);
- return DirIter->LastStatus;
+ if (DirIter->LastFileInfo != NULL) {
+ FreePool(DirIter->LastFileInfo);
+ DirIter->LastFileInfo = NULL;
+ }
+ if (DirIter->CloseDirHandle)
+ refit_call1_wrapper(DirIter->DirHandle->Close, DirIter->DirHandle);
+ return DirIter->LastStatus;
}
//
{
CHAR16 *FileName;
UINTN i;
-
+
FileName = Path;
-
+
if (Path != NULL) {
for (i = StrLen(Path); i > 0; i--) {
if (Path[i-1] == '\\' || Path[i-1] == '/') {
}
}
}
-
+
return FileName;
}
-VOID ReplaceExtension(IN OUT CHAR16 *Path, IN CHAR16 *Extension)
-{
- UINTN i;
-
- for (i = StrLen(Path); i >= 0; i--) {
- if (Path[i] == '.') {
- Path[i] = 0;
- break;
- }
- if (Path[i] == '\\' || Path[i] == '/')
- break;
- }
- StrCat(Path, Extension);
-}
+// Remove the .efi extension from FileName -- for instance, if FileName is
+// "fred.efi", returns "fred". If the filename contains no .efi extension,
+// returns a copy of the original input.
+CHAR16 * StripEfiExtension(CHAR16 *FileName) {
+ UINTN Length;
+ CHAR16 *Copy = NULL;
+
+ if ((FileName != NULL) && ((Copy = StrDuplicate(FileName)) != NULL)) {
+ Length = StrLen(Copy);
+ // Note: Do StriCmp() twice to work around Gigabyte Hybrid EFI case-sensitivity bug....
+ if ((Length >= 4) && ((StriCmp(&Copy[Length - 4], L".efi") == 0) || (StriCmp(&Copy[Length - 4], L".EFI") == 0))) {
+ Copy[Length - 4] = 0;
+ } // if
+ } // if
+ return Copy;
+} // CHAR16 * StripExtension()
//
// memory string search
{
UINT8 *BufferPtr;
UINTN Offset;
-
+
BufferPtr = Buffer;
BufferLength -= SearchStringLength;
for (Offset = 0; Offset < BufferLength; Offset++, BufferPtr++) {
if (CompareMem(BufferPtr, SearchString, SearchStringLength) == 0)
return (INTN)Offset;
}
-
+
return -1;
}
while ((!Found) && (StartPoint < NumCompares)) {
Found = (StrnCmp(SmallCopy, &BigCopy[StartPoint++], SmallLen) == 0);
} // while
- FreePool(SmallCopy);
- FreePool(BigCopy);
+ MyFreePool(SmallCopy);
+ MyFreePool(BigCopy);
} // if
-
+
return (Found);
} // BOOLEAN StriSubCmp()
// Merges two strings, creating a new one and returning a pointer to it.
// If AddChar != 0, the specified character is placed between the two original
-// strings (unless the first string is NULL). The original input string
-// *First is de-allocated and replaced by the new merged string.
+// strings (unless the first string is NULL or empty). The original input
+// string *First is de-allocated and replaced by the new merged string.
// This is similar to StrCat, but safer and more flexible because
// MergeStrings allocates memory that's the correct size for the
// new merged string, so it can take a NULL *First and it cleans
VOID MergeStrings(IN OUT CHAR16 **First, IN CHAR16 *Second, CHAR16 AddChar) {
UINTN Length1 = 0, Length2 = 0;
CHAR16* NewString;
-
+
if (*First != NULL)
Length1 = StrLen(*First);
if (Second != NULL)
Length2 = StrLen(Second);
NewString = AllocatePool(sizeof(CHAR16) * (Length1 + Length2 + 2));
- NewString[0] = 0;
if (NewString != NULL) {
+ if ((*First != NULL) && (StrLen(*First) == 0)) {
+ MyFreePool(*First);
+ *First = NULL;
+ }
+ NewString[0] = L'\0';
if (*First != NULL) {
StrCat(NewString, *First);
if (AddChar) {
NewString[Length1] = AddChar;
- NewString[Length1 + 1] = 0;
+ NewString[Length1 + 1] = '\0';
} // if (AddChar)
- } // if (First != NULL)
- if (First != NULL)
+ } // if (*First != NULL)
+ if (Second != NULL)
StrCat(NewString, Second);
- FreePool(*First);
+ MyFreePool(*First);
*First = NewString;
} else {
Print(L"Error! Unable to allocate memory in MergeStrings()!\n");
} // if/else
} // static CHAR16* MergeStrings()
+// Takes an input pathname (*Path) and returns the part of the filename from
+// the final dot onwards, converted to lowercase. If the filename includes
+// no dots, or if the input is NULL, returns an empty (but allocated) string.
+// The calling function is responsible for freeing the memory associated with
+// the return value.
+CHAR16 *FindExtension(IN CHAR16 *Path) {
+ CHAR16 *Extension;
+ BOOLEAN Found = FALSE, FoundSlash = FALSE;
+ INTN i;
+
+ Extension = AllocateZeroPool(sizeof(CHAR16));
+ if (Path) {
+ i = StrLen(Path);
+ while ((!Found) && (!FoundSlash) && (i >= 0)) {
+ if (Path[i] == L'.')
+ Found = TRUE;
+ else if ((Path[i] == L'/') || (Path[i] == L'\\'))
+ FoundSlash = TRUE;
+ if (!Found)
+ i--;
+ } // while
+ if (Found) {
+ MergeStrings(&Extension, &Path[i], 0);
+ StrLwr(Extension);
+ } // if (Found)
+ } // if
+ return (Extension);
+} // CHAR16 *FindExtension
+
// Takes an input pathname (*Path) and locates the final directory component
// of that name. For instance, if the input path is 'EFI\foo\bar.efi', this
// function returns the string 'foo'.
CHAR16 *FindLastDirName(IN CHAR16 *Path) {
UINTN i, StartOfElement = 0, EndOfElement = 0, PathLength, CopyLength;
CHAR16 *Found = NULL;
-
+
+ if (Path == NULL)
+ return NULL;
+
PathLength = StrLen(Path);
// Find start & end of target element
for (i = 0; i < PathLength; i++) {
// Returns the directory portion of a pathname. For instance,
// if FullPath is 'EFI\foo\bar.efi', this function returns the
-// string 'EFI\foo'.
+// string 'EFI\foo'. The calling function is responsible for
+// freeing the returned string's memory.
CHAR16 *FindPath(IN CHAR16* FullPath) {
UINTN i, LastBackslash = 0;
- CHAR16 *PathOnly;
-
- for (i = 0; i < StrLen(FullPath); i++) {
- if (FullPath[i] == '\\')
- LastBackslash = i;
- } // for
- PathOnly = StrDuplicate(FullPath);
- PathOnly[LastBackslash] = 0;
+ CHAR16 *PathOnly = NULL;
+
+ if (FullPath != NULL) {
+ for (i = 0; i < StrLen(FullPath); i++) {
+ if (FullPath[i] == '\\')
+ LastBackslash = i;
+ } // for
+ PathOnly = StrDuplicate(FullPath);
+ if (PathOnly != NULL)
+ PathOnly[LastBackslash] = 0;
+ } // if
return (PathOnly);
}
+/*++
+ *
+ * Routine Description:
+ *
+ * Find a substring.
+ *
+ * Arguments:
+ *
+ * String - Null-terminated string to search.
+ * StrCharSet - Null-terminated string to search for.
+ *
+ * Returns:
+ * The address of the first occurrence of the matching substring if successful, or NULL otherwise.
+ * --*/
+CHAR16* MyStrStr (CHAR16 *String, CHAR16 *StrCharSet)
+{
+ CHAR16 *Src;
+ CHAR16 *Sub;
+
+ if ((String == NULL) || (StrCharSet == NULL))
+ return NULL;
+
+ Src = String;
+ Sub = StrCharSet;
+
+ while ((*String != L'\0') && (*StrCharSet != L'\0')) {
+ if (*String++ != *StrCharSet) {
+ String = ++Src;
+ StrCharSet = Sub;
+ } else {
+ StrCharSet++;
+ }
+ }
+ if (*StrCharSet == L'\0') {
+ return Src;
+ } else {
+ return NULL;
+ }
+} // CHAR16 *MyStrStr()
+
+// Restrict TheString to at most Limit characters.
+// Does this in two ways:
+// - Locates stretches of two or more spaces and compresses
+// them down to one space.
+// - Truncates TheString
+// Returns TRUE if changes were made, FALSE otherwise
+BOOLEAN LimitStringLength(CHAR16 *TheString, UINTN Limit) {
+ CHAR16 *SubString, *TempString;
+ UINTN i;
+ BOOLEAN HasChanged = FALSE;
+
+ // SubString will be NULL or point WITHIN TheString
+ SubString = MyStrStr(TheString, L" ");
+ while (SubString != NULL) {
+ i = 0;
+ while (SubString[i] == L' ')
+ i++;
+ if (i >= StrLen(SubString)) {
+ SubString[0] = '\0';
+ HasChanged = TRUE;
+ } else {
+ TempString = StrDuplicate(&SubString[i]);
+ if (TempString != NULL) {
+ StrCpy(&SubString[1], TempString);
+ MyFreePool(TempString);
+ HasChanged = TRUE;
+ } else {
+ // memory allocation problem; abort to avoid potentially infinite loop!
+ break;
+ } // if/else
+ } // if/else
+ SubString = MyStrStr(TheString, L" ");
+ } // while
+
+ // If the string is still too long, truncate it....
+ if (StrLen(TheString) > Limit) {
+ TheString[Limit] = '\0';
+ HasChanged = TRUE;
+ } // if
+
+ return HasChanged;
+} // BOOLEAN LimitStringLength()
+
+// Takes an input loadpath, splits it into disk and filename components, finds a matching
+// DeviceVolume, and returns that and the filename (*loader).
+VOID FindVolumeAndFilename(IN EFI_DEVICE_PATH *loadpath, OUT REFIT_VOLUME **DeviceVolume, OUT CHAR16 **loader) {
+ CHAR16 *DeviceString, *VolumeDeviceString, *Temp;
+ UINTN i = 0;
+ BOOLEAN Found = FALSE;
+
+ MyFreePool(*loader);
+ MyFreePool(*DeviceVolume);
+ *DeviceVolume = NULL;
+ DeviceString = DevicePathToStr(loadpath);
+ *loader = SplitDeviceString(DeviceString);
+
+ while ((i < VolumesCount) && (!Found)) {
+ VolumeDeviceString = DevicePathToStr(Volumes[i]->DevicePath);
+ Temp = SplitDeviceString(VolumeDeviceString);
+ if (StriCmp(DeviceString, VolumeDeviceString) == 0) {
+ Found = TRUE;
+ *DeviceVolume = Volumes[i];
+ }
+ MyFreePool(Temp);
+ MyFreePool(VolumeDeviceString);
+ i++;
+ } // while
+
+ MyFreePool(DeviceString);
+} // VOID FindVolumeAndFilename()
+
+// Splits a volume/filename string (e.g., "fs0:\EFI\BOOT") into separate
+// volume and filename components (e.g., "fs0" and "\EFI\BOOT"), returning
+// the filename component in the original *Path variable and the split-off
+// volume component in the *VolName variable.
+// Returns TRUE if both components are found, FALSE otherwise.
+BOOLEAN SplitVolumeAndFilename(IN OUT CHAR16 **Path, OUT CHAR16 **VolName) {
+ UINTN i = 0, Length;
+ CHAR16 *Filename;
+
+ if (*Path == NULL)
+ return FALSE;
+
+ if (*VolName != NULL) {
+ MyFreePool(*VolName);
+ *VolName = NULL;
+ }
+
+ Length = StrLen(*Path);
+ while ((i < Length) && ((*Path)[i] != L':')) {
+ i++;
+ } // while
+
+ if (i < Length) {
+ Filename = StrDuplicate((*Path) + i + 1);
+ (*Path)[i] = 0;
+ *VolName = *Path;
+ *Path = Filename;
+ return TRUE;
+ } else {
+ return FALSE;
+ }
+} // BOOLEAN SplitVolumeAndFilename()
+
// Returns all the digits in the input string, including intervening
// non-digit characters. For instance, if InString is "foo-3.3.4-7.img",
// this function returns "3.3.4-7". If InString contains no digits,
CHAR16 *FindNumbers(IN CHAR16 *InString) {
UINTN i, StartOfElement, EndOfElement = 0, InLength, CopyLength;
CHAR16 *Found = NULL;
-
+
+ if (InString == NULL)
+ return NULL;
+
InLength = StartOfElement = StrLen(InString);
// Find start & end of target element
for (i = 0; i < InLength; i++) {
// Find the #Index element (numbered from 0) in a comma-delimited string
// of elements.
-// Returns the found element, or NULL if Index is out of range of InString
-// is NULL.
+// Returns the found element, or NULL if Index is out of range or InString
+// is NULL. Note that the calling function is responsible for freeing the
+// memory associated with the returned string pointer.
CHAR16 *FindCommaDelimited(IN CHAR16 *InString, IN UINTN Index) {
UINTN StartPos = 0, CurPos = 0;
BOOLEAN Found = FALSE;
else
CurPos++;
} // while
+ if (Index == 0)
+ FoundString = StrDuplicate(&InString[StartPos]);
+ if (FoundString != NULL)
+ FoundString[CurPos - StartPos] = 0;
} // if
- if (Index == 0)
- FoundString = StrDuplicate(&InString[StartPos]);
- if (FoundString != NULL)
- FoundString[CurPos - StartPos] = 0;
return (FoundString);
} // CHAR16 *FindCommaDelimited()
+
+// Return the position of SmallString within BigString, or -1 if
+// not found.
+INTN FindSubString(IN CHAR16 *SmallString, IN CHAR16 *BigString) {
+ INTN Position = -1;
+ UINTN i = 0, SmallSize, BigSize;
+ BOOLEAN Found = FALSE;
+
+ if ((SmallString == NULL) || (BigString == NULL))
+ return -1;
+
+ SmallSize = StrLen(SmallString);
+ BigSize = StrLen(BigString);
+ if ((SmallSize > BigSize) || (SmallSize == 0) || (BigSize == 0))
+ return -1;
+
+ while ((i <= (BigSize - SmallSize) && !Found)) {
+ if (CompareMem(BigString + i, SmallString, SmallSize) == 0) {
+ Found = TRUE;
+ Position = i;
+ } // if
+ i++;
+ } // while()
+ return Position;
+} // INTN FindSubString()
+
+// Take an input path name, which may include a volume specification and/or
+// a path, and return separate volume, path, and file names. For instance,
+// "BIGVOL:\EFI\ubuntu\grubx64.efi" will return a VolName of "BIGVOL", a Path
+// of "EFI\ubuntu", and a Filename of "grubx64.efi". If an element is missing,
+// the returned pointer is NULL. The calling function is responsible for
+// freeing the allocated memory.
+VOID SplitPathName(CHAR16 *InPath, CHAR16 **VolName, CHAR16 **Path, CHAR16 **Filename) {
+ CHAR16 *Temp = NULL;
+
+ MyFreePool(*VolName);
+ MyFreePool(*Path);
+ MyFreePool(*Filename);
+ *VolName = *Path = *Filename = NULL;
+ Temp = StrDuplicate(InPath);
+ SplitVolumeAndFilename(&Temp, VolName); // VolName is NULL or has volume; Temp has rest of path
+ CleanUpPathNameSlashes(Temp);
+ *Path = FindPath(Temp); // *Path has path (may be 0-length); Temp unchanged.
+ *Filename = StrDuplicate(Temp + StrLen(*Path));
+ CleanUpPathNameSlashes(*Filename);
+ if (StrLen(*Path) == 0) {
+ MyFreePool(*Path);
+ *Path = NULL;
+ }
+ if (StrLen(*Filename) == 0) {
+ MyFreePool(*Filename);
+ *Filename = NULL;
+ }
+ MyFreePool(Temp);
+} // VOID SplitPathName
+
+// Returns TRUE if SmallString is an element in the comma-delimited List,
+// FALSE otherwise. Performs comparison case-insensitively (except on
+// buggy EFIs with case-sensitive StriCmp() functions).
+BOOLEAN IsIn(IN CHAR16 *SmallString, IN CHAR16 *List) {
+ UINTN i = 0;
+ BOOLEAN Found = FALSE;
+ CHAR16 *OneElement;
+
+ if (SmallString && List) {
+ while (!Found && (OneElement = FindCommaDelimited(List, i++))) {
+ if (StriCmp(OneElement, SmallString) == 0)
+ Found = TRUE;
+ } // while
+ } // if
+ return Found;
+} // BOOLEAN IsIn()
+
+// Returns TRUE if any element of List can be found as a substring of
+// BigString, FALSE otherwise. Performs comparisons case-insensitively.
+BOOLEAN IsInSubstring(IN CHAR16 *BigString, IN CHAR16 *List) {
+ UINTN i = 0, ElementLength;
+ BOOLEAN Found = FALSE;
+ CHAR16 *OneElement;
+
+ if (BigString && List) {
+ while (!Found && (OneElement = FindCommaDelimited(List, i++))) {
+ ElementLength = StrLen(OneElement);
+ if ((ElementLength <= StrLen(BigString)) && (StriSubCmp(OneElement, BigString)))
+ Found = TRUE;
+ } // while
+ } // if
+ return Found;
+} // BOOLEAN IsSubstringIn()
+
+// Returns TRUE if specified Volume, Directory, and Filename correspond to an
+// element in the comma-delimited List, FALSE otherwise. Note that Directory and
+// Filename must *NOT* include a volume or path specification (that's part of
+// the Volume variable), but the List elements may. Performs comparison
+// case-insensitively (except on buggy EFIs with case-sensitive StriCmp()
+// functions).
+BOOLEAN FilenameIn(REFIT_VOLUME *Volume, CHAR16 *Directory, CHAR16 *Filename, CHAR16 *List) {
+ UINTN i = 0;
+ BOOLEAN Found = FALSE;
+ CHAR16 *OneElement;
+ CHAR16 *TargetVolName = NULL, *TargetPath = NULL, *TargetFilename = NULL;
+
+ if (Filename && List) {
+ while (!Found && (OneElement = FindCommaDelimited(List, i++))) {
+ Found = TRUE;
+ SplitPathName(OneElement, &TargetVolName, &TargetPath, &TargetFilename);
+ VolumeNumberToName(Volume, &TargetVolName);
+ if (((TargetVolName != NULL) && ((Volume == NULL) || (StriCmp(TargetVolName, Volume->VolName) != 0))) ||
+ ((TargetPath != NULL) && (StriCmp(TargetPath, Directory) != 0)) ||
+ ((TargetFilename != NULL) && (StriCmp(TargetFilename, Filename) != 0))) {
+ Found = FALSE;
+ } // if
+ MyFreePool(OneElement);
+ } // while
+ } // if
+
+ MyFreePool(TargetVolName);
+ MyFreePool(TargetPath);
+ MyFreePool(TargetFilename);
+ return Found;
+} // BOOLEAN FilenameIn()
+
+// If *VolName is of the form "fs#", where "#" is a number, and if Volume points
+// to this volume number, returns with *VolName changed to the volume name, as
+// stored in the Volume data structure.
+// Returns TRUE if this substitution was made, FALSE otherwise.
+BOOLEAN VolumeNumberToName(REFIT_VOLUME *Volume, CHAR16 **VolName) {
+ BOOLEAN MadeSubstitution = FALSE;
+ UINTN VolNum;
+
+ if ((VolName == NULL) || (*VolName == NULL))
+ return FALSE;
+
+ if ((StrLen(*VolName) > 2) && (*VolName[0] == L'f') && (*VolName[1] == L's') && (*VolName[2] >= L'0') && (*VolName[2] <= L'9')) {
+ VolNum = Atoi(*VolName + 2);
+ if (VolNum == Volume->VolNumber) {
+ MyFreePool(*VolName);
+ *VolName = StrDuplicate(Volume->VolName);
+ MadeSubstitution = TRUE;
+ } // if
+ } // if
+ return MadeSubstitution;
+} // BOOLEAN VolumeMatchesNumber()
+
+// Implement FreePool the way it should have been done to begin with, so that
+// it doesn't throw an ASSERT message if fed a NULL pointer....
+VOID MyFreePool(IN VOID *Pointer) {
+ if (Pointer != NULL)
+ FreePool(Pointer);
+}
+
+static EFI_GUID AppleRemovableMediaGuid = APPLE_REMOVABLE_MEDIA_PROTOCOL_GUID;
+
+// Eject all removable media.
+// Returns TRUE if any media were ejected, FALSE otherwise.
+BOOLEAN EjectMedia(VOID) {
+ EFI_STATUS Status;
+ UINTN HandleIndex, HandleCount = 0, Ejected = 0;
+ EFI_HANDLE *Handles, Handle;
+ APPLE_REMOVABLE_MEDIA_PROTOCOL *Ejectable;
+
+ Status = LibLocateHandle(ByProtocol, &AppleRemovableMediaGuid, NULL, &HandleCount, &Handles);
+ if (EFI_ERROR(Status) || HandleCount == 0)
+ return (FALSE); // probably not an Apple system
+
+ for (HandleIndex = 0; HandleIndex < HandleCount; HandleIndex++) {
+ Handle = Handles[HandleIndex];
+ Status = refit_call3_wrapper(BS->HandleProtocol, Handle, &AppleRemovableMediaGuid, (VOID **) &Ejectable);
+ if (EFI_ERROR(Status))
+ continue;
+ Status = refit_call1_wrapper(Ejectable->Eject, Ejectable);
+ if (!EFI_ERROR(Status))
+ Ejected++;
+ }
+ MyFreePool(Handles);
+ return (Ejected > 0);
+} // VOID EjectMedia()
+
+// Converts consecutive characters in the input string into a
+// number, interpreting the string as a hexadecimal number, starting
+// at the specified position and continuing for the specified number
+// of characters or until the end of the string, whichever is first.
+// NumChars must be between 1 and 16. Ignores invalid characters.
+UINT64 StrToHex(CHAR16 *Input, UINTN Pos, UINTN NumChars) {
+ UINT64 retval = 0x00;
+ UINTN NumDone = 0;
+ CHAR16 a;
+
+ if ((Input == NULL) || (StrLen(Input) < Pos) || (NumChars == 0) || (NumChars > 16)) {
+ return 0;
+ }
+
+ while ((StrLen(Input) >= Pos) && (NumDone < NumChars)) {
+ a = Input[Pos];
+ if ((a >= '0') && (a <= '9')) {
+ retval *= 0x10;
+ retval += (a - '0');
+ NumDone++;
+ }
+ if ((a >= 'a') && (a <= 'f')) {
+ retval *= 0x10;
+ retval += (a - 'a' + 0x0a);
+ NumDone++;
+ }
+ if ((a >= 'A') && (a <= 'F')) {
+ retval *= 0x10;
+ retval += (a - 'A' + 0x0a);
+ NumDone++;
+ }
+ Pos++;
+ } // while()
+ return retval;
+} // StrToHex()
+
+// Returns TRUE if UnknownString can be interpreted as a GUID, FALSE otherwise.
+// Note that the input string must have no extraneous spaces and must be
+// conventionally formatted as a 36-character GUID, complete with dashes in
+// appropriate places.
+BOOLEAN IsGuid(CHAR16 *UnknownString) {
+ UINTN Length, i;
+ BOOLEAN retval = TRUE;
+ CHAR16 a;
+
+ if (UnknownString == NULL)
+ return FALSE;
+
+ Length = StrLen(UnknownString);
+ if (Length != 36)
+ return FALSE;
+
+ for (i = 0; i < Length; i++) {
+ a = UnknownString[i];
+ if ((i == 8) || (i == 13) || (i == 18) || (i == 23)) {
+ if (a != '-')
+ retval = FALSE;
+ } else if (((a < 'a') || (a > 'f')) && ((a < 'A') || (a > 'F')) && ((a < '0') && (a > '9'))) {
+ retval = FALSE;
+ } // if/else if
+ } // for
+ return retval;
+} // BOOLEAN IsGuid()
+
+// Return the GUID as a string, suitable for display to the user. Note that the calling
+// function is responsible for freeing the allocated memory.
+CHAR16 * GuidAsString(EFI_GUID *GuidData) {
+ CHAR16 *TheString;
+
+ TheString = AllocateZeroPool(42 * sizeof(CHAR16));
+ if (TheString != 0) {
+ SPrint (TheString, 82, L"%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x",
+ (UINTN)GuidData->Data1, (UINTN)GuidData->Data2, (UINTN)GuidData->Data3,
+ (UINTN)GuidData->Data4[0], (UINTN)GuidData->Data4[1], (UINTN)GuidData->Data4[2],
+ (UINTN)GuidData->Data4[3], (UINTN)GuidData->Data4[4], (UINTN)GuidData->Data4[5],
+ (UINTN)GuidData->Data4[6], (UINTN)GuidData->Data4[7]);
+ }
+ return TheString;
+} // GuidAsString(EFI_GUID *GuidData)
+
+EFI_GUID StringAsGuid(CHAR16 * InString) {
+ EFI_GUID Guid = NULL_GUID_VALUE;
+
+ if (!IsGuid(InString)) {
+ return Guid;
+ }
+
+ Guid.Data1 = (UINT32) StrToHex(InString, 0, 8);
+ Guid.Data2 = (UINT16) StrToHex(InString, 9, 4);
+ Guid.Data3 = (UINT16) StrToHex(InString, 14, 4);
+ Guid.Data4[0] = (UINT8) StrToHex(InString, 19, 2);
+ Guid.Data4[1] = (UINT8) StrToHex(InString, 21, 2);
+ Guid.Data4[2] = (UINT8) StrToHex(InString, 23, 2);
+ Guid.Data4[3] = (UINT8) StrToHex(InString, 26, 2);
+ Guid.Data4[4] = (UINT8) StrToHex(InString, 28, 2);
+ Guid.Data4[5] = (UINT8) StrToHex(InString, 30, 2);
+ Guid.Data4[6] = (UINT8) StrToHex(InString, 32, 2);
+ Guid.Data4[7] = (UINT8) StrToHex(InString, 34, 2);
+
+ return Guid;
+} // EFI_GUID StringAsGuid()
+
+// Returns TRUE if the two GUIDs are equal, FALSE otherwise
+BOOLEAN GuidsAreEqual(EFI_GUID *Guid1, EFI_GUID *Guid2) {
+ return (CompareMem(Guid1, Guid2, 16) == 0);
+} // BOOLEAN CompareGuids()
+