*/
#include "fsw_efi.h"
+#include "fsw_core.h"
+#ifdef __MAKEWITH_GNUEFI
+#include "edk2/DriverBinding.h"
+#include "edk2/ComponentName.h"
+#endif
+#include "../include/refit_call_wrapper.h"
#define DEBUG_LEVEL 0
#ifndef FSTYPE
-#ifdef VBOX
#error FSTYPE must be defined!
-#else
-#define FSTYPE ext2
-#endif
#endif
#define DEBUG_VBFS 1
-// CHAR8 *msgCursor;
-// MESSAGE_LOG_PROTOCOL *Msg = NULL;
#if DEBUG_VBFS==2
#define DBG(x...) AsciiPrint(x)
#define DBG(x...)
#endif
+#ifdef __MAKEWITH_GNUEFI
+
+#define EFI_DISK_IO_PROTOCOL_GUID \
+ { \
+ 0xce345171, 0xba0b, 0x11d2, {0x8e, 0x4f, 0x0, 0xa0, 0xc9, 0x69, 0x72, 0x3b } \
+ }
+
+#define EFI_BLOCK_IO_PROTOCOL_GUID \
+ { \
+ 0x964e5b21, 0x6459, 0x11d2, {0x8e, 0x39, 0x0, 0xa0, 0xc9, 0x69, 0x72, 0x3b } \
+ }
+
+EFI_GUID gEfiDriverBindingProtocolGuid = EFI_DRIVER_BINDING_PROTOCOL_GUID;
+EFI_GUID gEfiComponentNameProtocolGuid = EFI_COMPONENT_NAME_PROTOCOL_GUID;
+EFI_GUID gEfiDiskIoProtocolGuid = EFI_DISK_IO_PROTOCOL_GUID;
+EFI_GUID gEfiBlockIoProtocolGuid = EFI_BLOCK_IO_PROTOCOL_GUID;
+EFI_GUID gEfiFileInfoGuid = EFI_FILE_INFO_ID;
+EFI_GUID gEfiFileSystemInfoGuid = EFI_FILE_SYSTEM_INFO_ID;
+EFI_GUID gEfiFileSystemVolumeLabelInfoIdGuid = EFI_FILE_SYSTEM_VOLUME_LABEL_INFO_ID;
+#define SimpleFileSystemProtocol FileSystemProtocol
+#endif
/** Helper macro for stringification. */
#define FSW_EFI_STRINGIFY(x) #x
/** Expands to the EFI driver name given the file system type name. */
-#define FSW_EFI_DRIVER_NAME(t) L"Fsw " FSW_EFI_STRINGIFY(t) L" File System Driver"
+#define FSW_EFI_DRIVER_NAME(t) L"rEFInd 0.8.0 " FSW_EFI_STRINGIFY(t) L" File System Driver"
// function prototypes
void fsw_efi_change_blocksize(struct fsw_volume *vol,
fsw_u32 old_phys_blocksize, fsw_u32 old_log_blocksize,
fsw_u32 new_phys_blocksize, fsw_u32 new_log_blocksize);
-fsw_status_t fsw_efi_read_block(struct fsw_volume *vol, fsw_u32 phys_bno, void *buffer);
+fsw_status_t fsw_efi_read_block(struct fsw_volume *vol, fsw_u64 phys_bno, void *buffer);
EFI_STATUS fsw_efi_map_status(fsw_status_t fsw_status, FSW_VOLUME_DATA *Volume);
IN OUT UINTN *BufferSize,
OUT VOID *Buffer);
+/**
+ * Structure for holding disk cache data.
+ */
+
+#define CACHE_SIZE 131072 /* 128KiB */
+struct cache_data {
+ fsw_u8 *Cache;
+ fsw_u64 CacheStart;
+ BOOLEAN CacheValid;
+ FSW_VOLUME_DATA *Volume; // NOTE: Do not deallocate; copied here to ID volume
+};
+
+#define NUM_CACHES 2 /* Don't increase without modifying fsw_efi_read_block() */
+static struct cache_data Caches[NUM_CACHES];
+static int LastRead = -1;
+
/**
* Interface structure for the EFI Driver Binding protocol.
*/
EFI_COMPONENT_NAME_PROTOCOL fsw_efi_ComponentName_table = {
fsw_efi_ComponentName_GetDriverName,
fsw_efi_ComponentName_GetControllerName,
- "eng"
+ (CHAR8*) "eng"
};
/**
//#include "OverrideFunctions-kabyl.edk2.c.include"
+static VOID EFIAPI fsw_efi_clear_cache(VOID) {
+ int i;
+
+ // clear the cache
+ for (i = 0; i < NUM_CACHES; i++) {
+ if (Caches[i].Cache != NULL) {
+ FreePool(Caches[i].Cache);
+ Caches[i].Cache = NULL;
+ } // if
+ Caches[i].CacheStart = 0;
+ Caches[i].CacheValid = FALSE;
+ Caches[i].Volume = NULL;
+ }
+ LastRead = -1;
+} // VOID EFIAPI fsw_efi_clear_cache();
+
/**
* Image entry point. Installs the Driver Binding and Component Name protocols
* on the image's handle. Actually mounting a file system is initiated through
{
EFI_STATUS Status;
-#ifndef VBOX
+#ifndef HOST_EFI_EDK2
+ // Not available in EDK2 toolkit
InitializeLib(ImageHandle, SystemTable);
#endif
fsw_efi_DriverBinding_table.ImageHandle = ImageHandle;
fsw_efi_DriverBinding_table.DriverBindingHandle = ImageHandle;
// install Driver Binding protocol
- Status = BS->InstallProtocolInterface(&fsw_efi_DriverBinding_table.DriverBindingHandle,
- &PROTO_NAME(DriverBindingProtocol),
+ Status = refit_call4_wrapper(BS->InstallProtocolInterface, &fsw_efi_DriverBinding_table.DriverBindingHandle,
+ &gEfiDriverBindingProtocolGuid,
EFI_NATIVE_INTERFACE,
&fsw_efi_DriverBinding_table);
if (EFI_ERROR (Status)) {
}
// install Component Name protocol
- Status = BS->InstallProtocolInterface(&fsw_efi_DriverBinding_table.DriverBindingHandle,
- &PROTO_NAME(ComponentNameProtocol),
+ Status = refit_call4_wrapper(BS->InstallProtocolInterface, &fsw_efi_DriverBinding_table.DriverBindingHandle,
+ &gEfiComponentNameProtocolGuid,
EFI_NATIVE_INTERFACE,
&fsw_efi_ComponentName_table);
if (EFI_ERROR (Status)) {
return EFI_SUCCESS;
}
+#ifdef __MAKEWITH_GNUEFI
+EFI_DRIVER_ENTRY_POINT(fsw_efi_main)
+#endif
+
/**
* Driver Binding EFI protocol, Supported function. This function is called by EFI
* to test if this driver can handle a certain device. Our implementation only checks
// we check for both DiskIO and BlockIO protocols
// first, open DiskIO
- Status = BS->OpenProtocol(ControllerHandle,
+ Status = refit_call6_wrapper(BS->OpenProtocol, ControllerHandle,
&PROTO_NAME(DiskIoProtocol),
(VOID **) &DiskIo,
This->DriverBindingHandle,
return Status;
// we were just checking, close it again
- BS->CloseProtocol(ControllerHandle,
+ refit_call4_wrapper(BS->CloseProtocol, ControllerHandle,
&PROTO_NAME(DiskIoProtocol),
This->DriverBindingHandle,
ControllerHandle);
// next, check BlockIO without actually opening it
- Status = BS->OpenProtocol(ControllerHandle,
+ Status = refit_call6_wrapper(BS->OpenProtocol, ControllerHandle,
&PROTO_NAME(BlockIoProtocol),
NULL,
This->DriverBindingHandle,
#endif
// open consumed protocols
- Status = BS->OpenProtocol(ControllerHandle,
+ Status = refit_call6_wrapper(BS->OpenProtocol, ControllerHandle,
&PROTO_NAME(BlockIoProtocol),
(VOID **) &BlockIo,
This->DriverBindingHandle,
return Status;
}
- Status = BS->OpenProtocol(ControllerHandle,
+ Status = refit_call6_wrapper(BS->OpenProtocol, ControllerHandle,
&PROTO_NAME(DiskIoProtocol),
(VOID **) &DiskIo,
This->DriverBindingHandle,
ControllerHandle,
EFI_OPEN_PROTOCOL_BY_DRIVER);
if (EFI_ERROR(Status)) {
- Print(L"Fsw ERROR: OpenProtocol(DiskIo) returned %r\n", Status);
return Status;
}
// register the SimpleFileSystem protocol
Volume->FileSystem.Revision = EFI_FILE_IO_INTERFACE_REVISION;
Volume->FileSystem.OpenVolume = fsw_efi_FileSystem_OpenVolume;
- Status = BS->InstallMultipleProtocolInterfaces(&ControllerHandle,
+ Status = refit_call4_wrapper(BS->InstallMultipleProtocolInterfaces, &ControllerHandle,
&PROTO_NAME(SimpleFileSystemProtocol),
&Volume->FileSystem,
NULL);
fsw_unmount(Volume->vol);
FreePool(Volume);
- BS->CloseProtocol(ControllerHandle,
+ refit_call4_wrapper(BS->CloseProtocol, ControllerHandle,
&PROTO_NAME(DiskIoProtocol),
This->DriverBindingHandle,
ControllerHandle);
#endif
// get the installed SimpleFileSystem interface
- Status = BS->OpenProtocol(ControllerHandle,
+ Status = refit_call6_wrapper(BS->OpenProtocol, ControllerHandle,
&PROTO_NAME(SimpleFileSystemProtocol),
(VOID **) &FileSystem,
This->DriverBindingHandle,
Volume = FSW_VOLUME_FROM_FILE_SYSTEM(FileSystem);
// uninstall Simple File System protocol
- Status = BS->UninstallMultipleProtocolInterfaces(ControllerHandle,
+ Status = refit_call4_wrapper(BS->UninstallMultipleProtocolInterfaces, ControllerHandle,
&PROTO_NAME(SimpleFileSystemProtocol), &Volume->FileSystem,
NULL);
if (EFI_ERROR(Status)) {
FreePool(Volume);
// close the consumed protocols
- Status = BS->CloseProtocol(ControllerHandle,
+ Status = refit_call4_wrapper(BS->CloseProtocol, ControllerHandle,
&PROTO_NAME(DiskIoProtocol),
This->DriverBindingHandle,
ControllerHandle);
+ // clear the cache
+ fsw_efi_clear_cache();
+
return Status;
}
/**
* FSW interface function to read data blocks. This function is called by the FSW core
* to read a block of data from the device. The buffer is allocated by the core code.
+ * Two caches are maintained, so as to improve performance on some systems. (VirtualBox
+ * is particularly susceptible to performance problems with an uncached driver -- the
+ * ext2 driver can take 200 seconds to load a Linux kernel under VirtualBox, whereas
+ * the time is more like 3 seconds with a cache!) Two independent caches are maintained
+ * because the ext2fs driver tends to alternate between accessing two parts of the
+ * disk.
*/
-fsw_status_t fsw_efi_read_block(struct fsw_volume *vol, fsw_u32 phys_bno, void *buffer)
-{
- EFI_STATUS Status;
- FSW_VOLUME_DATA *Volume = (FSW_VOLUME_DATA *)vol->host_data;
-
-// FSW_MSG_DEBUGV((FSW_MSGSTR("fsw_efi_read_block: %d (%d)\n"), phys_bno, vol->phys_blocksize));
-
- // read from disk
- Status = Volume->DiskIo->ReadDisk(Volume->DiskIo, Volume->MediaId,
- (UINT64)phys_bno * vol->phys_blocksize,
- vol->phys_blocksize,
- buffer);
- Volume->LastIOStatus = Status;
- if (EFI_ERROR(Status))
- return FSW_IO_ERROR;
- return FSW_SUCCESS;
-}
+fsw_status_t fsw_efi_read_block(struct fsw_volume *vol, fsw_u64 phys_bno, void *buffer) {
+ int i, ReadCache = -1;
+ FSW_VOLUME_DATA *Volume = (FSW_VOLUME_DATA *)vol->host_data;
+ EFI_STATUS Status = EFI_SUCCESS;
+ BOOLEAN ReadOneBlock = FALSE;
+ fsw_u64 StartRead = phys_bno * vol->phys_blocksize;
+
+ if (buffer == NULL)
+ return (fsw_status_t) EFI_BAD_BUFFER_SIZE;
+
+ // Initialize static data structures, if necessary....
+ if (LastRead < 0) {
+ fsw_efi_clear_cache();
+ } // if
+
+ // Look for a cache hit on the current query....
+ i = 0;
+ do {
+ if ((Caches[i].Volume == Volume) &&
+ (Caches[i].CacheValid == TRUE) &&
+ (StartRead >= Caches[i].CacheStart) &&
+ ((StartRead + vol->phys_blocksize) <= (Caches[i].CacheStart + CACHE_SIZE))) {
+ ReadCache = i;
+ }
+ i++;
+ } while ((i < NUM_CACHES) && (ReadCache < 0));
+
+ // No cache hit found; load new cache and pass it on....
+ if (ReadCache < 0) {
+ if (LastRead == -1)
+ LastRead = 1;
+ ReadCache = 1 - LastRead; // NOTE: If NUM_CACHES > 2, this must become more complex
+ Caches[ReadCache].CacheValid = FALSE;
+ if (Caches[ReadCache].Cache == NULL)
+ Caches[ReadCache].Cache = AllocatePool(CACHE_SIZE);
+ if (Caches[ReadCache].Cache != NULL) {
+ Status = refit_call5_wrapper(Volume->DiskIo->ReadDisk, Volume->DiskIo, Volume->MediaId,
+ StartRead, CACHE_SIZE, Caches[ReadCache].Cache);
+ if (!EFI_ERROR(Status)) {
+ Caches[ReadCache].CacheStart = StartRead;
+ Caches[ReadCache].CacheValid = TRUE;
+ Caches[ReadCache].Volume = Volume;
+ LastRead = ReadCache;
+ } else {
+ ReadOneBlock = TRUE;
+ }
+ } else {
+ ReadOneBlock = TRUE;
+ } // if cache memory allocated
+ } // if (ReadCache < 0)
+
+ if (Caches[ReadCache].Cache != NULL && Caches[ReadCache].CacheValid == TRUE) {
+ CopyMem(buffer, &Caches[ReadCache].Cache[StartRead - Caches[ReadCache].CacheStart], vol->phys_blocksize);
+ } else {
+ ReadOneBlock = TRUE;
+ }
+
+ if (ReadOneBlock) { // Something's failed, so try a simple disk read of one block....
+ Status = refit_call5_wrapper(Volume->DiskIo->ReadDisk, Volume->DiskIo, Volume->MediaId,
+ phys_bno * vol->phys_blocksize,
+ vol->phys_blocksize,
+ buffer);
+ }
+ Volume->LastIOStatus = Status;
+
+ return Status;
+} // fsw_status_t *fsw_efi_read_block()
/**
* Map FSW status codes to EFI status codes. The FSW_IO_ERROR code is only produced
Print(L"fsw_efi_FileSystem_OpenVolume\n");
#endif
+ fsw_efi_clear_cache();
Status = fsw_efi_dnode_to_FileHandle(Volume->vol->root, Root);
return Status;
{
EFI_STATUS Status;
- Status = This->Close(This);
+ Status = refit_call1_wrapper(This->Close, This);
if (Status == EFI_SUCCESS) {
// this driver is read-only
Status = EFI_WARN_DELETE_FAILURE;
* to be a special value for the end of the file.
*/
-EFI_STATUS fsw_efi_file_setpos(IN FSW_FILE_DATA *File,
- IN UINT64 Position)
+EFI_STATUS fsw_efi_file_setpos(IN FSW_FILE_DATA *File, IN UINT64 Position)
{
if (Position == 0xFFFFFFFFFFFFFFFFULL)
File->shand.pos = File->shand.dnode->size;
lookup_path.data = FileName;
// resolve the path (symlinks along the way are automatically resolved)
- Status = fsw_efi_map_status(fsw_dnode_lookup_path(File->shand.dnode, &lookup_path, '\\', &dno),
- Volume);
+ Status = fsw_efi_map_status(fsw_dnode_lookup_path(File->shand.dnode, &lookup_path, '\\', &dno), Volume);
if (EFI_ERROR(Status))
return Status;
// if the final node is a symlink, also resolve it
- Status = fsw_efi_map_status(fsw_dnode_resolve(dno, &target_dno),
- Volume);
+ Status = fsw_efi_map_status(fsw_dnode_resolve(dno, &target_dno), Volume);
fsw_dnode_release(dno);
if (EFI_ERROR(Status))
return Status;
#endif
// read the next entry
- Status = fsw_efi_map_status(fsw_dnode_dir_read(&File->shand, &dno),
- Volume);
+ Status = fsw_efi_map_status(fsw_dnode_dir_read(&File->shand, &dno), Volume);
if (Status == EFI_NOT_FOUND) {
// end of directory
*BufferSize = 0;
* position to zero.
*/
-EFI_STATUS fsw_efi_dir_setpos(IN FSW_FILE_DATA *File,
- IN UINT64 Position)
+EFI_STATUS fsw_efi_dir_setpos(IN FSW_FILE_DATA *File, IN UINT64 Position)
{
if (Position == 0) {
File->shand.pos = 0;