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|
/** @file
DXE Dispatcher.
Step #1 - When a FV protocol is added to the system every driver in the FV
is added to the mDiscoveredList. The SOR, Before, and After Depex are
pre-processed as drivers are added to the mDiscoveredList. If an Apriori
file exists in the FV those drivers are addeded to the
mScheduledQueue. The mFvHandleList is used to make sure a
FV is only processed once.
Step #2 - Dispatch. Remove driver from the mScheduledQueue and load and
start it. After mScheduledQueue is drained check the
mDiscoveredList to see if any item has a Depex that is ready to
be placed on the mScheduledQueue.
Step #3 - Adding to the mScheduledQueue requires that you process Before
and After dependencies. This is done recursively as the call to add
to the mScheduledQueue checks for Before and recursively adds
all Befores. It then addes the item that was passed in and then
processess the After dependecies by recursively calling the routine.
Dispatcher Rules:
The rules for the dispatcher are in chapter 10 of the DXE CIS. Figure 10-3
is the state diagram for the DXE dispatcher
Depex - Dependency Expresion.
SOR - Schedule On Request - Don't schedule if this bit is set.
Copyright (c) 2006 - 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 "DxeMain.h"
//
// The Driver List contains one copy of every driver that has been discovered.
// Items are never removed from the driver list. List of EFI_CORE_DRIVER_ENTRY
//
LIST_ENTRY mDiscoveredList = INITIALIZE_LIST_HEAD_VARIABLE (mDiscoveredList);
//
// Queue of drivers that are ready to dispatch. This queue is a subset of the
// mDiscoveredList.list of EFI_CORE_DRIVER_ENTRY.
//
LIST_ENTRY mScheduledQueue = INITIALIZE_LIST_HEAD_VARIABLE (mScheduledQueue);
//
// List of handles who's Fv's have been parsed and added to the mFwDriverList.
//
LIST_ENTRY mFvHandleList = INITIALIZE_LIST_HEAD_VARIABLE (mFvHandleList); // list of KNOWN_HANDLE
//
// Lock for mDiscoveredList, mScheduledQueue, gDispatcherRunning.
//
EFI_LOCK mDispatcherLock = EFI_INITIALIZE_LOCK_VARIABLE (TPL_HIGH_LEVEL);
//
// Flag for the DXE Dispacher. TRUE if dispatcher is execuing.
//
BOOLEAN gDispatcherRunning = FALSE;
//
// Module globals to manage the FwVol registration notification event
//
EFI_EVENT mFwVolEvent;
VOID *mFwVolEventRegistration;
//
// List of file types supported by dispatcher
//
EFI_FV_FILETYPE mDxeFileTypes[] = {
EFI_FV_FILETYPE_DRIVER,
EFI_FV_FILETYPE_COMBINED_SMM_DXE,
EFI_FV_FILETYPE_COMBINED_PEIM_DRIVER,
EFI_FV_FILETYPE_DXE_CORE,
EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE
};
typedef struct {
MEDIA_FW_VOL_FILEPATH_DEVICE_PATH File;
EFI_DEVICE_PATH_PROTOCOL End;
} FV_FILEPATH_DEVICE_PATH;
FV_FILEPATH_DEVICE_PATH mFvDevicePath;
//
// Function Prototypes
//
/**
Insert InsertedDriverEntry onto the mScheduledQueue. To do this you
must add any driver with a before dependency on InsertedDriverEntry first.
You do this by recursively calling this routine. After all the Befores are
processed you can add InsertedDriverEntry to the mScheduledQueue.
Then you can add any driver with an After dependency on InsertedDriverEntry
by recursively calling this routine.
@param InsertedDriverEntry The driver to insert on the ScheduledLink Queue
**/
VOID
CoreInsertOnScheduledQueueWhileProcessingBeforeAndAfter (
IN EFI_CORE_DRIVER_ENTRY *InsertedDriverEntry
);
/**
Event notification that is fired every time a FV dispatch protocol is added.
More than one protocol may have been added when this event is fired, so you
must loop on CoreLocateHandle () to see how many protocols were added and
do the following to each FV:
If the Fv has already been processed, skip it. If the Fv has not been
processed then mark it as being processed, as we are about to process it.
Read the Fv and add any driver in the Fv to the mDiscoveredList.The
mDiscoveredList is never free'ed and contains variables that define
the other states the DXE driver transitions to..
While you are at it read the A Priori file into memory.
Place drivers in the A Priori list onto the mScheduledQueue.
@param Event The Event that is being processed, not used.
@param Context Event Context, not used.
**/
VOID
EFIAPI
CoreFwVolEventProtocolNotify (
IN EFI_EVENT Event,
IN VOID *Context
);
/**
Convert FvHandle and DriverName into an EFI device path
@param Fv Fv protocol, needed to read Depex info out of
FLASH.
@param FvHandle Handle for Fv, needed in the
EFI_CORE_DRIVER_ENTRY so that the PE image can be
read out of the FV at a later time.
@param DriverName Name of driver to add to mDiscoveredList.
@return Pointer to device path constructed from FvHandle and DriverName
**/
EFI_DEVICE_PATH_PROTOCOL *
CoreFvToDevicePath (
IN EFI_FIRMWARE_VOLUME2_PROTOCOL *Fv,
IN EFI_HANDLE FvHandle,
IN EFI_GUID *DriverName
);
/**
Add an entry to the mDiscoveredList. Allocate memory to store the DriverEntry,
and initilize any state variables. Read the Depex from the FV and store it
in DriverEntry. Pre-process the Depex to set the SOR, Before and After state.
The Discovered list is never free'ed and contains booleans that represent the
other possible DXE driver states.
@param Fv Fv protocol, needed to read Depex info out of
FLASH.
@param FvHandle Handle for Fv, needed in the
EFI_CORE_DRIVER_ENTRY so that the PE image can be
read out of the FV at a later time.
@param DriverName Name of driver to add to mDiscoveredList.
@param Type Fv File Type of file to add to mDiscoveredList.
@retval EFI_SUCCESS If driver was added to the mDiscoveredList.
@retval EFI_ALREADY_STARTED The driver has already been started. Only one
DriverName may be active in the system at any one
time.
**/
EFI_STATUS
CoreAddToDriverList (
IN EFI_FIRMWARE_VOLUME2_PROTOCOL *Fv,
IN EFI_HANDLE FvHandle,
IN EFI_GUID *DriverName,
IN EFI_FV_FILETYPE Type
);
/**
Get the driver from the FV through driver name, and produce a FVB protocol on FvHandle.
@param Fv The FIRMWARE_VOLUME protocol installed on the FV.
@param FvHandle The handle which FVB protocol installed on.
@param DriverName The driver guid specified.
@retval EFI_OUT_OF_RESOURCES No enough memory or other resource.
@retval EFI_VOLUME_CORRUPTED Corrupted volume.
@retval EFI_SUCCESS Function successfully returned.
**/
EFI_STATUS
CoreProcessFvImageFile (
IN EFI_FIRMWARE_VOLUME2_PROTOCOL *Fv,
IN EFI_HANDLE FvHandle,
IN EFI_GUID *DriverName
);
/**
Enter critical section by gaining lock on mDispatcherLock.
**/
VOID
CoreAcquireDispatcherLock (
VOID
)
{
CoreAcquireLock (&mDispatcherLock);
}
/**
Exit critical section by releasing lock on mDispatcherLock.
**/
VOID
CoreReleaseDispatcherLock (
VOID
)
{
CoreReleaseLock (&mDispatcherLock);
}
/**
Read Depex and pre-process the Depex for Before and After. If Section Extraction
protocol returns an error via ReadSection defer the reading of the Depex.
@param DriverEntry Driver to work on.
@retval EFI_SUCCESS Depex read and preprossesed
@retval EFI_PROTOCOL_ERROR The section extraction protocol returned an error
and Depex reading needs to be retried.
@retval Error DEPEX not found.
**/
EFI_STATUS
CoreGetDepexSectionAndPreProccess (
IN EFI_CORE_DRIVER_ENTRY *DriverEntry
)
{
EFI_STATUS Status;
EFI_SECTION_TYPE SectionType;
UINT32 AuthenticationStatus;
EFI_FIRMWARE_VOLUME2_PROTOCOL *Fv;
Fv = DriverEntry->Fv;
//
// Grab Depex info, it will never be free'ed.
//
SectionType = EFI_SECTION_DXE_DEPEX;
Status = Fv->ReadSection (
DriverEntry->Fv,
&DriverEntry->FileName,
SectionType,
0,
&DriverEntry->Depex,
(UINTN *)&DriverEntry->DepexSize,
&AuthenticationStatus
);
if (EFI_ERROR (Status)) {
if (Status == EFI_PROTOCOL_ERROR) {
//
// The section extraction protocol failed so set protocol error flag
//
DriverEntry->DepexProtocolError = TRUE;
} else {
//
// If no Depex assume UEFI 2.0 driver model
//
DriverEntry->Depex = NULL;
DriverEntry->Dependent = TRUE;
DriverEntry->DepexProtocolError = FALSE;
}
} else {
//
// Set Before, After, and Unrequested state information based on Depex
// Driver will be put in Dependent or Unrequested state
//
CorePreProcessDepex (DriverEntry);
DriverEntry->DepexProtocolError = FALSE;
}
return Status;
}
/**
Check every driver and locate a matching one. If the driver is found, the Unrequested
state flag is cleared.
@param FirmwareVolumeHandle The handle of the Firmware Volume that contains
the firmware file specified by DriverName.
@param DriverName The Driver name to put in the Dependent state.
@retval EFI_SUCCESS The DriverName was found and it's SOR bit was
cleared
@retval EFI_NOT_FOUND The DriverName does not exist or it's SOR bit was
not set.
**/
EFI_STATUS
EFIAPI
CoreSchedule (
IN EFI_HANDLE FirmwareVolumeHandle,
IN EFI_GUID *DriverName
)
{
LIST_ENTRY *Link;
EFI_CORE_DRIVER_ENTRY *DriverEntry;
//
// Check every driver
//
for (Link = mDiscoveredList.ForwardLink; Link != &mDiscoveredList; Link = Link->ForwardLink) {
DriverEntry = CR(Link, EFI_CORE_DRIVER_ENTRY, Link, EFI_CORE_DRIVER_ENTRY_SIGNATURE);
if (DriverEntry->FvHandle == FirmwareVolumeHandle &&
DriverEntry->Unrequested &&
CompareGuid (DriverName, &DriverEntry->FileName)) {
//
// Move the driver from the Unrequested to the Dependent state
//
CoreAcquireDispatcherLock ();
DriverEntry->Unrequested = FALSE;
DriverEntry->Dependent = TRUE;
CoreReleaseDispatcherLock ();
DEBUG ((DEBUG_DISPATCH, "Schedule FFS(%g) - EFI_SUCCESS\n", DriverName));
return EFI_SUCCESS;
}
}
DEBUG ((DEBUG_DISPATCH, "Schedule FFS(%g) - EFI_NOT_FOUND\n", DriverName));
return EFI_NOT_FOUND;
}
/**
Convert a driver from the Untrused back to the Scheduled state.
@param FirmwareVolumeHandle The handle of the Firmware Volume that contains
the firmware file specified by DriverName.
@param DriverName The Driver name to put in the Scheduled state
@retval EFI_SUCCESS The file was found in the untrusted state, and it
was promoted to the trusted state.
@retval EFI_NOT_FOUND The file was not found in the untrusted state.
**/
EFI_STATUS
EFIAPI
CoreTrust (
IN EFI_HANDLE FirmwareVolumeHandle,
IN EFI_GUID *DriverName
)
{
LIST_ENTRY *Link;
EFI_CORE_DRIVER_ENTRY *DriverEntry;
//
// Check every driver
//
for (Link = mDiscoveredList.ForwardLink; Link != &mDiscoveredList; Link = Link->ForwardLink) {
DriverEntry = CR(Link, EFI_CORE_DRIVER_ENTRY, Link, EFI_CORE_DRIVER_ENTRY_SIGNATURE);
if (DriverEntry->FvHandle == FirmwareVolumeHandle &&
DriverEntry->Untrusted &&
CompareGuid (DriverName, &DriverEntry->FileName)) {
//
// Transition driver from Untrusted to Scheduled state.
//
CoreAcquireDispatcherLock ();
DriverEntry->Untrusted = FALSE;
DriverEntry->Scheduled = TRUE;
InsertTailList (&mScheduledQueue, &DriverEntry->ScheduledLink);
CoreReleaseDispatcherLock ();
return EFI_SUCCESS;
}
}
return EFI_NOT_FOUND;
}
/**
This is the main Dispatcher for DXE and it exits when there are no more
drivers to run. Drain the mScheduledQueue and load and start a PE
image for each driver. Search the mDiscoveredList to see if any driver can
be placed on the mScheduledQueue. If no drivers are placed on the
mScheduledQueue exit the function. On exit it is assumed the Bds()
will be called, and when the Bds() exits the Dispatcher will be called
again.
@retval EFI_ALREADY_STARTED The DXE Dispatcher is already running
@retval EFI_NOT_FOUND No DXE Drivers were dispatched
@retval EFI_SUCCESS One or more DXE Drivers were dispatched
**/
EFI_STATUS
EFIAPI
CoreDispatcher (
VOID
)
{
EFI_STATUS Status;
EFI_STATUS ReturnStatus;
LIST_ENTRY *Link;
EFI_CORE_DRIVER_ENTRY *DriverEntry;
BOOLEAN ReadyToRun;
EFI_EVENT DxeDispatchEvent;
PERF_FUNCTION_BEGIN ();
if (gDispatcherRunning) {
//
// If the dispatcher is running don't let it be restarted.
//
return EFI_ALREADY_STARTED;
}
gDispatcherRunning = TRUE;
Status = CoreCreateEventEx (
EVT_NOTIFY_SIGNAL,
TPL_NOTIFY,
EfiEventEmptyFunction,
NULL,
&gEfiEventDxeDispatchGuid,
&DxeDispatchEvent
);
if (EFI_ERROR (Status)) {
return Status;
}
ReturnStatus = EFI_NOT_FOUND;
do {
//
// Drain the Scheduled Queue
//
while (!IsListEmpty (&mScheduledQueue)) {
DriverEntry = CR (
mScheduledQueue.ForwardLink,
EFI_CORE_DRIVER_ENTRY,
ScheduledLink,
EFI_CORE_DRIVER_ENTRY_SIGNATURE
);
//
// Load the DXE Driver image into memory. If the Driver was transitioned from
// Untrused to Scheduled it would have already been loaded so we may need to
// skip the LoadImage
//
if (DriverEntry->ImageHandle == NULL && !DriverEntry->IsFvImage) {
DEBUG ((DEBUG_INFO, "Loading driver %g\n", &DriverEntry->FileName));
Status = CoreLoadImage (
FALSE,
gDxeCoreImageHandle,
DriverEntry->FvFileDevicePath,
NULL,
0,
&DriverEntry->ImageHandle
);
//
// Update the driver state to reflect that it's been loaded
//
if (EFI_ERROR (Status)) {
CoreAcquireDispatcherLock ();
if (Status == EFI_SECURITY_VIOLATION) {
//
// Take driver from Scheduled to Untrused state
//
DriverEntry->Untrusted = TRUE;
} else {
//
// The DXE Driver could not be loaded, and do not attempt to load or start it again.
// Take driver from Scheduled to Initialized.
//
// This case include the Never Trusted state if EFI_ACCESS_DENIED is returned
//
DriverEntry->Initialized = TRUE;
}
DriverEntry->Scheduled = FALSE;
RemoveEntryList (&DriverEntry->ScheduledLink);
CoreReleaseDispatcherLock ();
//
// If it's an error don't try the StartImage
//
continue;
}
}
CoreAcquireDispatcherLock ();
DriverEntry->Scheduled = FALSE;
DriverEntry->Initialized = TRUE;
RemoveEntryList (&DriverEntry->ScheduledLink);
CoreReleaseDispatcherLock ();
if (DriverEntry->IsFvImage) {
//
// Produce a firmware volume block protocol for FvImage so it gets dispatched from.
//
Status = CoreProcessFvImageFile (DriverEntry->Fv, DriverEntry->FvHandle, &DriverEntry->FileName);
} else {
REPORT_STATUS_CODE_WITH_EXTENDED_DATA (
EFI_PROGRESS_CODE,
(EFI_SOFTWARE_DXE_CORE | EFI_SW_PC_INIT_BEGIN),
&DriverEntry->ImageHandle,
sizeof (DriverEntry->ImageHandle)
);
ASSERT (DriverEntry->ImageHandle != NULL);
Status = CoreStartImage (DriverEntry->ImageHandle, NULL, NULL);
REPORT_STATUS_CODE_WITH_EXTENDED_DATA (
EFI_PROGRESS_CODE,
(EFI_SOFTWARE_DXE_CORE | EFI_SW_PC_INIT_END),
&DriverEntry->ImageHandle,
sizeof (DriverEntry->ImageHandle)
);
}
ReturnStatus = EFI_SUCCESS;
}
//
// Now DXE Dispatcher finished one round of dispatch, signal an event group
// so that SMM Dispatcher get chance to dispatch SMM Drivers which depend
// on UEFI protocols
//
if (!EFI_ERROR (ReturnStatus)) {
CoreSignalEvent (DxeDispatchEvent);
}
//
// Search DriverList for items to place on Scheduled Queue
//
ReadyToRun = FALSE;
for (Link = mDiscoveredList.ForwardLink; Link != &mDiscoveredList; Link = Link->ForwardLink) {
DriverEntry = CR (Link, EFI_CORE_DRIVER_ENTRY, Link, EFI_CORE_DRIVER_ENTRY_SIGNATURE);
if (DriverEntry->DepexProtocolError){
//
// If Section Extraction Protocol did not let the Depex be read before retry the read
//
Status = CoreGetDepexSectionAndPreProccess (DriverEntry);
}
if (DriverEntry->Dependent) {
if (CoreIsSchedulable (DriverEntry)) {
CoreInsertOnScheduledQueueWhileProcessingBeforeAndAfter (DriverEntry);
ReadyToRun = TRUE;
}
} else {
if (DriverEntry->Unrequested) {
DEBUG ((DEBUG_DISPATCH, "Evaluate DXE DEPEX for FFS(%g)\n", &DriverEntry->FileName));
DEBUG ((DEBUG_DISPATCH, " SOR = Not Requested\n"));
DEBUG ((DEBUG_DISPATCH, " RESULT = FALSE\n"));
}
}
}
} while (ReadyToRun);
//
// Close DXE dispatch Event
//
CoreCloseEvent (DxeDispatchEvent);
gDispatcherRunning = FALSE;
PERF_FUNCTION_END ();
return ReturnStatus;
}
/**
Insert InsertedDriverEntry onto the mScheduledQueue. To do this you
must add any driver with a before dependency on InsertedDriverEntry first.
You do this by recursively calling this routine. After all the Befores are
processed you can add InsertedDriverEntry to the mScheduledQueue.
Then you can add any driver with an After dependency on InsertedDriverEntry
by recursively calling this routine.
@param InsertedDriverEntry The driver to insert on the ScheduledLink Queue
**/
VOID
CoreInsertOnScheduledQueueWhileProcessingBeforeAndAfter (
IN EFI_CORE_DRIVER_ENTRY *InsertedDriverEntry
)
{
LIST_ENTRY *Link;
EFI_CORE_DRIVER_ENTRY *DriverEntry;
//
// Process Before Dependency
//
for (Link = mDiscoveredList.ForwardLink; Link != &mDiscoveredList; Link = Link->ForwardLink) {
DriverEntry = CR(Link, EFI_CORE_DRIVER_ENTRY, Link, EFI_CORE_DRIVER_ENTRY_SIGNATURE);
if (DriverEntry->Before && DriverEntry->Dependent && DriverEntry != InsertedDriverEntry) {
DEBUG ((DEBUG_DISPATCH, "Evaluate DXE DEPEX for FFS(%g)\n", &DriverEntry->FileName));
DEBUG ((DEBUG_DISPATCH, " BEFORE FFS(%g) = ", &DriverEntry->BeforeAfterGuid));
if (CompareGuid (&InsertedDriverEntry->FileName, &DriverEntry->BeforeAfterGuid)) {
//
// Recursively process BEFORE
//
DEBUG ((DEBUG_DISPATCH, "TRUE\n END\n RESULT = TRUE\n"));
CoreInsertOnScheduledQueueWhileProcessingBeforeAndAfter (DriverEntry);
} else {
DEBUG ((DEBUG_DISPATCH, "FALSE\n END\n RESULT = FALSE\n"));
}
}
}
//
// Convert driver from Dependent to Scheduled state
//
CoreAcquireDispatcherLock ();
InsertedDriverEntry->Dependent = FALSE;
InsertedDriverEntry->Scheduled = TRUE;
InsertTailList (&mScheduledQueue, &InsertedDriverEntry->ScheduledLink);
CoreReleaseDispatcherLock ();
//
// Process After Dependency
//
for (Link = mDiscoveredList.ForwardLink; Link != &mDiscoveredList; Link = Link->ForwardLink) {
DriverEntry = CR(Link, EFI_CORE_DRIVER_ENTRY, Link, EFI_CORE_DRIVER_ENTRY_SIGNATURE);
if (DriverEntry->After && DriverEntry->Dependent && DriverEntry != InsertedDriverEntry) {
DEBUG ((DEBUG_DISPATCH, "Evaluate DXE DEPEX for FFS(%g)\n", &DriverEntry->FileName));
DEBUG ((DEBUG_DISPATCH, " AFTER FFS(%g) = ", &DriverEntry->BeforeAfterGuid));
if (CompareGuid (&InsertedDriverEntry->FileName, &DriverEntry->BeforeAfterGuid)) {
//
// Recursively process AFTER
//
DEBUG ((DEBUG_DISPATCH, "TRUE\n END\n RESULT = TRUE\n"));
CoreInsertOnScheduledQueueWhileProcessingBeforeAndAfter (DriverEntry);
} else {
DEBUG ((DEBUG_DISPATCH, "FALSE\n END\n RESULT = FALSE\n"));
}
}
}
}
/**
Return TRUE if the Fv has been processed, FALSE if not.
@param FvHandle The handle of a FV that's being tested
@retval TRUE Fv protocol on FvHandle has been processed
@retval FALSE Fv protocol on FvHandle has not yet been processed
**/
BOOLEAN
FvHasBeenProcessed (
IN EFI_HANDLE FvHandle
)
{
LIST_ENTRY *Link;
KNOWN_HANDLE *KnownHandle;
for (Link = mFvHandleList.ForwardLink; Link != &mFvHandleList; Link = Link->ForwardLink) {
KnownHandle = CR(Link, KNOWN_HANDLE, Link, KNOWN_HANDLE_SIGNATURE);
if (KnownHandle->Handle == FvHandle) {
return TRUE;
}
}
return FALSE;
}
/**
Remember that Fv protocol on FvHandle has had it's drivers placed on the
mDiscoveredList. This fucntion adds entries on the mFvHandleList if new
entry is different from one in mFvHandleList by checking FvImage Guid.
Items are never removed/freed from the mFvHandleList.
@param FvHandle The handle of a FV that has been processed
@return A point to new added FvHandle entry. If FvHandle with the same FvImage guid
has been added, NULL will return.
**/
KNOWN_HANDLE *
FvIsBeingProcesssed (
IN EFI_HANDLE FvHandle
)
{
EFI_STATUS Status;
EFI_GUID FvNameGuid;
BOOLEAN FvNameGuidIsFound;
UINT32 ExtHeaderOffset;
EFI_FIRMWARE_VOLUME_BLOCK_PROTOCOL *Fvb;
EFI_FIRMWARE_VOLUME_HEADER *FwVolHeader;
EFI_FV_BLOCK_MAP_ENTRY *BlockMap;
UINTN LbaOffset;
UINTN Index;
EFI_LBA LbaIndex;
LIST_ENTRY *Link;
KNOWN_HANDLE *KnownHandle;
FwVolHeader = NULL;
//
// Get the FirmwareVolumeBlock protocol on that handle
//
FvNameGuidIsFound = FALSE;
Status = CoreHandleProtocol (FvHandle, &gEfiFirmwareVolumeBlockProtocolGuid, (VOID **)&Fvb);
if (!EFI_ERROR (Status)) {
//
// Get the full FV header based on FVB protocol.
//
ASSERT (Fvb != NULL);
Status = GetFwVolHeader (Fvb, &FwVolHeader);
if (!EFI_ERROR (Status)) {
ASSERT (FwVolHeader != NULL);
if (VerifyFvHeaderChecksum (FwVolHeader) && FwVolHeader->ExtHeaderOffset != 0) {
ExtHeaderOffset = (UINT32) FwVolHeader->ExtHeaderOffset;
BlockMap = FwVolHeader->BlockMap;
LbaIndex = 0;
LbaOffset = 0;
//
// Find LbaIndex and LbaOffset for FV extension header based on BlockMap.
//
while ((BlockMap->NumBlocks != 0) || (BlockMap->Length != 0)) {
for (Index = 0; Index < BlockMap->NumBlocks && ExtHeaderOffset >= BlockMap->Length; Index ++) {
ExtHeaderOffset -= BlockMap->Length;
LbaIndex ++;
}
//
// Check whether FvExtHeader is crossing the multi block range.
//
if (Index < BlockMap->NumBlocks) {
LbaOffset = ExtHeaderOffset;
break;
}
BlockMap++;
}
//
// Read FvNameGuid from FV extension header.
//
Status = ReadFvbData (Fvb, &LbaIndex, &LbaOffset, sizeof (FvNameGuid), (UINT8 *) &FvNameGuid);
if (!EFI_ERROR (Status)) {
FvNameGuidIsFound = TRUE;
}
}
CoreFreePool (FwVolHeader);
}
}
if (FvNameGuidIsFound) {
//
// Check whether the FV image with the found FvNameGuid has been processed.
//
for (Link = mFvHandleList.ForwardLink; Link != &mFvHandleList; Link = Link->ForwardLink) {
KnownHandle = CR(Link, KNOWN_HANDLE, Link, KNOWN_HANDLE_SIGNATURE);
if (CompareGuid (&FvNameGuid, &KnownHandle->FvNameGuid)) {
DEBUG ((EFI_D_ERROR, "FvImage on FvHandle %p and %p has the same FvNameGuid %g.\n", FvHandle, KnownHandle->Handle, &FvNameGuid));
return NULL;
}
}
}
KnownHandle = AllocateZeroPool (sizeof (KNOWN_HANDLE));
ASSERT (KnownHandle != NULL);
KnownHandle->Signature = KNOWN_HANDLE_SIGNATURE;
KnownHandle->Handle = FvHandle;
if (FvNameGuidIsFound) {
CopyGuid (&KnownHandle->FvNameGuid, &FvNameGuid);
}
InsertTailList (&mFvHandleList, &KnownHandle->Link);
return KnownHandle;
}
/**
Convert FvHandle and DriverName into an EFI device path
@param Fv Fv protocol, needed to read Depex info out of
FLASH.
@param FvHandle Handle for Fv, needed in the
EFI_CORE_DRIVER_ENTRY so that the PE image can be
read out of the FV at a later time.
@param DriverName Name of driver to add to mDiscoveredList.
@return Pointer to device path constructed from FvHandle and DriverName
**/
EFI_DEVICE_PATH_PROTOCOL *
CoreFvToDevicePath (
IN EFI_FIRMWARE_VOLUME2_PROTOCOL *Fv,
IN EFI_HANDLE FvHandle,
IN EFI_GUID *DriverName
)
{
EFI_STATUS Status;
EFI_DEVICE_PATH_PROTOCOL *FvDevicePath;
EFI_DEVICE_PATH_PROTOCOL *FileNameDevicePath;
//
// Remember the device path of the FV
//
Status = CoreHandleProtocol (FvHandle, &gEfiDevicePathProtocolGuid, (VOID **)&FvDevicePath);
if (EFI_ERROR (Status)) {
FileNameDevicePath = NULL;
} else {
//
// Build a device path to the file in the FV to pass into gBS->LoadImage
//
EfiInitializeFwVolDevicepathNode (&mFvDevicePath.File, DriverName);
SetDevicePathEndNode (&mFvDevicePath.End);
FileNameDevicePath = AppendDevicePath (
FvDevicePath,
(EFI_DEVICE_PATH_PROTOCOL *)&mFvDevicePath
);
}
return FileNameDevicePath;
}
/**
Add an entry to the mDiscoveredList. Allocate memory to store the DriverEntry,
and initilize any state variables. Read the Depex from the FV and store it
in DriverEntry. Pre-process the Depex to set the SOR, Before and After state.
The Discovered list is never free'ed and contains booleans that represent the
other possible DXE driver states.
@param Fv Fv protocol, needed to read Depex info out of
FLASH.
@param FvHandle Handle for Fv, needed in the
EFI_CORE_DRIVER_ENTRY so that the PE image can be
read out of the FV at a later time.
@param DriverName Name of driver to add to mDiscoveredList.
@param Type Fv File Type of file to add to mDiscoveredList.
@retval EFI_SUCCESS If driver was added to the mDiscoveredList.
@retval EFI_ALREADY_STARTED The driver has already been started. Only one
DriverName may be active in the system at any one
time.
**/
EFI_STATUS
CoreAddToDriverList (
IN EFI_FIRMWARE_VOLUME2_PROTOCOL *Fv,
IN EFI_HANDLE FvHandle,
IN EFI_GUID *DriverName,
IN EFI_FV_FILETYPE Type
)
{
EFI_CORE_DRIVER_ENTRY *DriverEntry;
//
// Create the Driver Entry for the list. ZeroPool initializes lots of variables to
// NULL or FALSE.
//
DriverEntry = AllocateZeroPool (sizeof (EFI_CORE_DRIVER_ENTRY));
ASSERT (DriverEntry != NULL);
if (Type == EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE) {
DriverEntry->IsFvImage = TRUE;
}
DriverEntry->Signature = EFI_CORE_DRIVER_ENTRY_SIGNATURE;
CopyGuid (&DriverEntry->FileName, DriverName);
DriverEntry->FvHandle = FvHandle;
DriverEntry->Fv = Fv;
DriverEntry->FvFileDevicePath = CoreFvToDevicePath (Fv, FvHandle, DriverName);
CoreGetDepexSectionAndPreProccess (DriverEntry);
CoreAcquireDispatcherLock ();
InsertTailList (&mDiscoveredList, &DriverEntry->Link);
CoreReleaseDispatcherLock ();
return EFI_SUCCESS;
}
/**
Check if a FV Image type file (EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE) is
described by a EFI_HOB_FIRMWARE_VOLUME2 Hob.
@param FvNameGuid The FV image guid specified.
@param DriverName The driver guid specified.
@retval TRUE This file is found in a EFI_HOB_FIRMWARE_VOLUME2
Hob.
@retval FALSE Not found.
**/
BOOLEAN
FvFoundInHobFv2 (
IN CONST EFI_GUID *FvNameGuid,
IN CONST EFI_GUID *DriverName
)
{
EFI_PEI_HOB_POINTERS HobFv2;
HobFv2.Raw = GetHobList ();
while ((HobFv2.Raw = GetNextHob (EFI_HOB_TYPE_FV2, HobFv2.Raw)) != NULL) {
//
// Compare parent FvNameGuid and FileGuid both.
//
if (CompareGuid (DriverName, &HobFv2.FirmwareVolume2->FileName) &&
CompareGuid (FvNameGuid, &HobFv2.FirmwareVolume2->FvName)) {
return TRUE;
}
HobFv2.Raw = GET_NEXT_HOB (HobFv2);
}
return FALSE;
}
/**
Find USED_SIZE FV_EXT_TYPE entry in FV extension header and get the FV used size.
@param[in] FvHeader Pointer to FV header.
@param[out] FvUsedSize Pointer to FV used size returned,
only valid if USED_SIZE FV_EXT_TYPE entry is found.
@param[out] EraseByte Pointer to erase byte returned,
only valid if USED_SIZE FV_EXT_TYPE entry is found.
@retval TRUE USED_SIZE FV_EXT_TYPE entry is found,
FV used size and erase byte are returned.
@retval FALSE No USED_SIZE FV_EXT_TYPE entry found.
**/
BOOLEAN
GetFvUsedSize (
IN EFI_FIRMWARE_VOLUME_HEADER *FvHeader,
OUT UINT32 *FvUsedSize,
OUT UINT8 *EraseByte
)
{
UINT16 ExtHeaderOffset;
EFI_FIRMWARE_VOLUME_EXT_HEADER *ExtHeader;
EFI_FIRMWARE_VOLUME_EXT_ENTRY *ExtEntryList;
EFI_FIRMWARE_VOLUME_EXT_ENTRY_USED_SIZE_TYPE *ExtEntryUsedSize;
ExtHeaderOffset = ReadUnaligned16 (&FvHeader->ExtHeaderOffset);
if (ExtHeaderOffset != 0) {
ExtHeader = (EFI_FIRMWARE_VOLUME_EXT_HEADER *) ((UINT8 *) FvHeader + ExtHeaderOffset);
ExtEntryList = (EFI_FIRMWARE_VOLUME_EXT_ENTRY *) (ExtHeader + 1);
while ((UINTN) ExtEntryList < ((UINTN) ExtHeader + ReadUnaligned32 (&ExtHeader->ExtHeaderSize))) {
if (ReadUnaligned16 (&ExtEntryList->ExtEntryType) == EFI_FV_EXT_TYPE_USED_SIZE_TYPE) {
//
// USED_SIZE FV_EXT_TYPE entry is found.
//
ExtEntryUsedSize = (EFI_FIRMWARE_VOLUME_EXT_ENTRY_USED_SIZE_TYPE *) ExtEntryList;
*FvUsedSize = ReadUnaligned32 (&ExtEntryUsedSize->UsedSize);
if ((ReadUnaligned32 (&FvHeader->Attributes) & EFI_FVB2_ERASE_POLARITY) != 0) {
*EraseByte = 0xFF;
} else {
*EraseByte = 0;
}
DEBUG ((
DEBUG_INFO,
"FV at 0x%x has 0x%x used size, and erase byte is 0x%02x\n",
FvHeader,
*FvUsedSize,
*EraseByte
));
return TRUE;
}
ExtEntryList = (EFI_FIRMWARE_VOLUME_EXT_ENTRY *)
((UINT8 *) ExtEntryList + ReadUnaligned16 (&ExtEntryList->ExtEntrySize));
}
}
//
// No USED_SIZE FV_EXT_TYPE entry found.
//
return FALSE;
}
/**
Get the driver from the FV through driver name, and produce a FVB protocol on FvHandle.
@param Fv The FIRMWARE_VOLUME protocol installed on the FV.
@param FvHandle The handle which FVB protocol installed on.
@param DriverName The driver guid specified.
@retval EFI_OUT_OF_RESOURCES No enough memory or other resource.
@retval EFI_VOLUME_CORRUPTED Corrupted volume.
@retval EFI_SUCCESS Function successfully returned.
**/
EFI_STATUS
CoreProcessFvImageFile (
IN EFI_FIRMWARE_VOLUME2_PROTOCOL *Fv,
IN EFI_HANDLE FvHandle,
IN EFI_GUID *DriverName
)
{
EFI_STATUS Status;
EFI_SECTION_TYPE SectionType;
UINT32 AuthenticationStatus;
VOID *Buffer;
VOID *AlignedBuffer;
UINTN BufferSize;
EFI_FIRMWARE_VOLUME_HEADER *FvHeader;
UINT32 FvAlignment;
EFI_DEVICE_PATH_PROTOCOL *FvFileDevicePath;
UINT32 FvUsedSize;
UINT8 EraseByte;
//
// Read the first (and only the first) firmware volume section
//
SectionType = EFI_SECTION_FIRMWARE_VOLUME_IMAGE;
FvHeader = NULL;
FvAlignment = 0;
Buffer = NULL;
BufferSize = 0;
AlignedBuffer = NULL;
Status = Fv->ReadSection (
Fv,
DriverName,
SectionType,
0,
&Buffer,
&BufferSize,
&AuthenticationStatus
);
if (!EFI_ERROR (Status)) {
//
// Evaluate the authentication status of the Firmware Volume through
// Security Architectural Protocol
//
if (gSecurity != NULL) {
FvFileDevicePath = CoreFvToDevicePath (Fv, FvHandle, DriverName);
Status = gSecurity->FileAuthenticationState (
gSecurity,
AuthenticationStatus,
FvFileDevicePath
);
if (FvFileDevicePath != NULL) {
FreePool (FvFileDevicePath);
}
if (Status != EFI_SUCCESS) {
//
// Security check failed. The firmware volume should not be used for any purpose.
//
if (Buffer != NULL) {
FreePool (Buffer);
}
return Status;
}
}
//
// FvImage should be at its required alignment.
//
FvHeader = (EFI_FIRMWARE_VOLUME_HEADER *) Buffer;
//
// If EFI_FVB2_WEAK_ALIGNMENT is set in the volume header then the first byte of the volume
// can be aligned on any power-of-two boundary. A weakly aligned volume can not be moved from
// its initial linked location and maintain its alignment.
//
if ((ReadUnaligned32 (&FvHeader->Attributes) & EFI_FVB2_WEAK_ALIGNMENT) != EFI_FVB2_WEAK_ALIGNMENT) {
//
// Get FvHeader alignment
//
FvAlignment = 1 << ((ReadUnaligned32 (&FvHeader->Attributes) & EFI_FVB2_ALIGNMENT) >> 16);
//
// FvAlignment must be greater than or equal to 8 bytes of the minimum FFS alignment value.
//
if (FvAlignment < 8) {
FvAlignment = 8;
}
DEBUG ((
DEBUG_INFO,
"%a() FV at 0x%x, FvAlignment required is 0x%x\n",
__FUNCTION__,
FvHeader,
FvAlignment
));
//
// Check FvImage alignment.
//
if ((UINTN) FvHeader % FvAlignment != 0) {
//
// Allocate the aligned buffer for the FvImage.
//
AlignedBuffer = AllocateAlignedPages (EFI_SIZE_TO_PAGES (BufferSize), (UINTN) FvAlignment);
if (AlignedBuffer == NULL) {
FreePool (Buffer);
return EFI_OUT_OF_RESOURCES;
} else {
//
// Move FvImage into the aligned buffer and release the original buffer.
//
if (GetFvUsedSize (FvHeader, &FvUsedSize, &EraseByte)) {
//
// Copy the used bytes and fill the rest with the erase value.
//
CopyMem (AlignedBuffer, FvHeader, (UINTN) FvUsedSize);
SetMem (
(UINT8 *) AlignedBuffer + FvUsedSize,
(UINTN) (BufferSize - FvUsedSize),
EraseByte
);
} else {
CopyMem (AlignedBuffer, Buffer, BufferSize);
}
FvHeader = (EFI_FIRMWARE_VOLUME_HEADER *) AlignedBuffer;
CoreFreePool (Buffer);
Buffer = NULL;
}
}
}
//
// Produce a FVB protocol for the file
//
Status = ProduceFVBProtocolOnBuffer (
(EFI_PHYSICAL_ADDRESS) (UINTN) FvHeader,
(UINT64)BufferSize,
FvHandle,
AuthenticationStatus,
NULL
);
}
if (EFI_ERROR (Status)) {
//
// ReadSection or Produce FVB failed, Free data buffer
//
if (Buffer != NULL) {
FreePool (Buffer);
}
if (AlignedBuffer != NULL) {
FreeAlignedPages (AlignedBuffer, EFI_SIZE_TO_PAGES (BufferSize));
}
}
return Status;
}
/**
Event notification that is fired every time a FV dispatch protocol is added.
More than one protocol may have been added when this event is fired, so you
must loop on CoreLocateHandle () to see how many protocols were added and
do the following to each FV:
If the Fv has already been processed, skip it. If the Fv has not been
processed then mark it as being processed, as we are about to process it.
Read the Fv and add any driver in the Fv to the mDiscoveredList.The
mDiscoveredList is never free'ed and contains variables that define
the other states the DXE driver transitions to..
While you are at it read the A Priori file into memory.
Place drivers in the A Priori list onto the mScheduledQueue.
@param Event The Event that is being processed, not used.
@param Context Event Context, not used.
**/
VOID
EFIAPI
CoreFwVolEventProtocolNotify (
IN EFI_EVENT Event,
IN VOID *Context
)
{
EFI_STATUS Status;
EFI_STATUS GetNextFileStatus;
EFI_FIRMWARE_VOLUME2_PROTOCOL *Fv;
EFI_DEVICE_PATH_PROTOCOL *FvDevicePath;
EFI_HANDLE FvHandle;
UINTN BufferSize;
EFI_GUID NameGuid;
UINTN Key;
EFI_FV_FILETYPE Type;
EFI_FV_FILE_ATTRIBUTES Attributes;
UINTN Size;
EFI_CORE_DRIVER_ENTRY *DriverEntry;
EFI_GUID *AprioriFile;
UINTN AprioriEntryCount;
UINTN Index;
LIST_ENTRY *Link;
UINT32 AuthenticationStatus;
UINTN SizeOfBuffer;
VOID *DepexBuffer;
KNOWN_HANDLE *KnownHandle;
FvHandle = NULL;
while (TRUE) {
BufferSize = sizeof (EFI_HANDLE);
Status = CoreLocateHandle (
ByRegisterNotify,
NULL,
mFwVolEventRegistration,
&BufferSize,
&FvHandle
);
if (EFI_ERROR (Status)) {
//
// If no more notification events exit
//
return;
}
if (FvHasBeenProcessed (FvHandle)) {
//
// This Fv has already been processed so lets skip it!
//
continue;
}
//
// Since we are about to process this Fv mark it as processed.
//
KnownHandle = FvIsBeingProcesssed (FvHandle);
if (KnownHandle == NULL) {
//
// The FV with the same FV name guid has already been processed.
// So lets skip it!
//
continue;
}
Status = CoreHandleProtocol (FvHandle, &gEfiFirmwareVolume2ProtocolGuid, (VOID **)&Fv);
if (EFI_ERROR (Status) || Fv == NULL) {
//
// FvHandle must have Firmware Volume2 protocol thus we should never get here.
//
ASSERT (FALSE);
continue;
}
Status = CoreHandleProtocol (FvHandle, &gEfiDevicePathProtocolGuid, (VOID **)&FvDevicePath);
if (EFI_ERROR (Status)) {
//
// The Firmware volume doesn't have device path, can't be dispatched.
//
continue;
}
//
// Discover Drivers in FV and add them to the Discovered Driver List.
// Process EFI_FV_FILETYPE_DRIVER type and then EFI_FV_FILETYPE_COMBINED_PEIM_DRIVER
// EFI_FV_FILETYPE_DXE_CORE is processed to produce a Loaded Image protocol for the core
// EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE is processed to create a Fvb
//
for (Index = 0; Index < sizeof (mDxeFileTypes) / sizeof (EFI_FV_FILETYPE); Index++) {
//
// Initialize the search key
//
Key = 0;
do {
Type = mDxeFileTypes[Index];
GetNextFileStatus = Fv->GetNextFile (
Fv,
&Key,
&Type,
&NameGuid,
&Attributes,
&Size
);
if (!EFI_ERROR (GetNextFileStatus)) {
if (Type == EFI_FV_FILETYPE_DXE_CORE) {
//
// If this is the DXE core fill in it's DevicePath & DeviceHandle
//
if (gDxeCoreLoadedImage->FilePath == NULL) {
if (CompareGuid (&NameGuid, gDxeCoreFileName)) {
//
// Maybe One specail Fv cantains only one DXE_CORE module, so its device path must
// be initialized completely.
//
EfiInitializeFwVolDevicepathNode (&mFvDevicePath.File, &NameGuid);
SetDevicePathEndNode (&mFvDevicePath.End);
gDxeCoreLoadedImage->FilePath = DuplicateDevicePath (
(EFI_DEVICE_PATH_PROTOCOL *)&mFvDevicePath
);
gDxeCoreLoadedImage->DeviceHandle = FvHandle;
}
}
} else if (Type == EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE) {
//
// Check if this EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE file has already
// been extracted.
//
if (FvFoundInHobFv2 (&KnownHandle->FvNameGuid, &NameGuid)) {
continue;
}
//
// Check if this EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE file has SMM depex section.
//
DepexBuffer = NULL;
SizeOfBuffer = 0;
Status = Fv->ReadSection (
Fv,
&NameGuid,
EFI_SECTION_SMM_DEPEX,
0,
&DepexBuffer,
&SizeOfBuffer,
&AuthenticationStatus
);
if (!EFI_ERROR (Status)) {
//
// If SMM depex section is found, this FV image is invalid to be supported.
// ASSERT FALSE to report this FV image.
//
FreePool (DepexBuffer);
ASSERT (FALSE);
}
//
// Check if this EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE file has DXE depex section.
//
DepexBuffer = NULL;
SizeOfBuffer = 0;
Status = Fv->ReadSection (
Fv,
&NameGuid,
EFI_SECTION_DXE_DEPEX,
0,
&DepexBuffer,
&SizeOfBuffer,
&AuthenticationStatus
);
if (EFI_ERROR (Status)) {
//
// If no depex section, produce a firmware volume block protocol for it so it gets dispatched from.
//
CoreProcessFvImageFile (Fv, FvHandle, &NameGuid);
} else {
//
// If depex section is found, this FV image will be dispatched until its depex is evaluated to TRUE.
//
FreePool (DepexBuffer);
CoreAddToDriverList (Fv, FvHandle, &NameGuid, Type);
}
} else {
//
// Transition driver from Undiscovered to Discovered state
//
CoreAddToDriverList (Fv, FvHandle, &NameGuid, Type);
}
}
} while (!EFI_ERROR (GetNextFileStatus));
}
//
// Read the array of GUIDs from the Apriori file if it is present in the firmware volume
//
AprioriFile = NULL;
Status = Fv->ReadSection (
Fv,
&gAprioriGuid,
EFI_SECTION_RAW,
0,
(VOID **)&AprioriFile,
&SizeOfBuffer,
&AuthenticationStatus
);
if (!EFI_ERROR (Status)) {
AprioriEntryCount = SizeOfBuffer / sizeof (EFI_GUID);
} else {
AprioriEntryCount = 0;
}
//
// Put drivers on Apriori List on the Scheduled queue. The Discovered List includes
// drivers not in the current FV and these must be skipped since the a priori list
// is only valid for the FV that it resided in.
//
for (Index = 0; Index < AprioriEntryCount; Index++) {
for (Link = mDiscoveredList.ForwardLink; Link != &mDiscoveredList; Link = Link->ForwardLink) {
DriverEntry = CR(Link, EFI_CORE_DRIVER_ENTRY, Link, EFI_CORE_DRIVER_ENTRY_SIGNATURE);
if (CompareGuid (&DriverEntry->FileName, &AprioriFile[Index]) &&
(FvHandle == DriverEntry->FvHandle)) {
CoreAcquireDispatcherLock ();
DriverEntry->Dependent = FALSE;
DriverEntry->Scheduled = TRUE;
InsertTailList (&mScheduledQueue, &DriverEntry->ScheduledLink);
CoreReleaseDispatcherLock ();
DEBUG ((DEBUG_DISPATCH, "Evaluate DXE DEPEX for FFS(%g)\n", &DriverEntry->FileName));
DEBUG ((DEBUG_DISPATCH, " RESULT = TRUE (Apriori)\n"));
break;
}
}
}
//
// Free data allocated by Fv->ReadSection ()
//
CoreFreePool (AprioriFile);
}
}
/**
Initialize the dispatcher. Initialize the notification function that runs when
an FV2 protocol is added to the system.
**/
VOID
CoreInitializeDispatcher (
VOID
)
{
PERF_FUNCTION_BEGIN ();
mFwVolEvent = EfiCreateProtocolNotifyEvent (
&gEfiFirmwareVolume2ProtocolGuid,
TPL_CALLBACK,
CoreFwVolEventProtocolNotify,
NULL,
&mFwVolEventRegistration
);
PERF_FUNCTION_END ();
}
//
// Function only used in debug builds
//
/**
Traverse the discovered list for any drivers that were discovered but not loaded
because the dependency experessions evaluated to false.
**/
VOID
CoreDisplayDiscoveredNotDispatched (
VOID
)
{
LIST_ENTRY *Link;
EFI_CORE_DRIVER_ENTRY *DriverEntry;
for (Link = mDiscoveredList.ForwardLink;Link !=&mDiscoveredList; Link = Link->ForwardLink) {
DriverEntry = CR(Link, EFI_CORE_DRIVER_ENTRY, Link, EFI_CORE_DRIVER_ENTRY_SIGNATURE);
if (DriverEntry->Dependent) {
DEBUG ((DEBUG_LOAD, "Driver %g was discovered but not loaded!!\n", &DriverEntry->FileName));
}
}
}
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