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|
/** @file
UEFI Runtime Library implementation for non IPF processor types.
This library hides the global variable for the EFI Runtime Services so the
caller does not need to deal with the possiblitly of being called from an
OS virtual address space. All pointer values are different for a virtual
mapping than from the normal physical mapping at boot services time.
Copyright (c) 2006 - 2008, Intel Corporation.<BR>
All rights reserved. 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 "RuntimeLibInternal.h"
/**
This service is a wrapper for the UEFI Runtime Service ResetSystem().
The ResetSystem()function resets the entire platform, including all processors and devices,and reboots the system.
Calling this interface with ResetType of EfiResetCold causes a system-wide reset. This sets all circuitry within
the system to its initial state. This type of reset is asynchronous to system operation and operates without regard
to cycle boundaries. EfiResetCold is tantamount to a system power cycle.
Calling this interface with ResetType of EfiResetWarm causes a system-wide initialization. The processors are set to
their initial state, and pending cycles are not corrupted. If the system does not support this reset type, then an
EfiResetCold must be performed.
Calling this interface with ResetType of EfiResetShutdown causes the system to enter a power state equivalent to the
ACPI G2/S5 or G3 states. If the system does not support this reset type, then when the system is rebooted, it should
exhibit the EfiResetCold attributes.
The platform may optionally log the parmeters from any non-normal reset that occurs.
The ResetSystem() function does not return.
@param ResetType The type of reset to perform.
@param ResetStatus The status code for the reset. If the system reset is part of a normal operation, the status code
would be EFI_SUCCESS. If the system reset is due to some type of failure the most appropriate EFI
Status code would be used.
@param DataSizeThe size, in bytes, of ResetData.
@param ResetData For a ResetType of EfiResetCold, EfiResetWarm, or EfiResetShutdown the data buffer starts with a
Null-terminated Unicode string, optionally followed by additional binary data. The string is a
description that the caller may use to further indicate the reason for the system reset. ResetData
is only valid if ResetStatus is something other then EFI_SUCCESS. This pointer must be a physical
address. For a ResetType of EfiRestUpdate the data buffer also starts with a Null-terminated string
that is followed by a physical VOID * to an EFI_CAPSULE_HEADER.
**/
VOID
EFIAPI
EfiResetSystem (
IN EFI_RESET_TYPE ResetType,
IN EFI_STATUS ResetStatus,
IN UINTN DataSize,
IN VOID *ResetData OPTIONAL
)
{
mRT->ResetSystem (ResetType, ResetStatus, DataSize, ResetData);
}
/**
This service is a wrapper for the UEFI Runtime Service GetTime().
The GetTime() function returns a time that was valid sometime during the call to the function.
While the returned EFI_TIME structure contains TimeZone and Daylight savings time information,
the actual clock does not maintain these values. The current time zone and daylight saving time
information returned by GetTime() are the values that were last set via SetTime().
The GetTime() function should take approximately the same amount of time to read the time each
time it is called. All reported device capabilities are to be rounded up.
During runtime, if a PC-AT CMOS device is present in the platform the caller must synchronize
access to the device before calling GetTime().
@param Time A pointer to storage to receive a snapshot of the current time.
@param Capabilities An optional pointer to a buffer to receive the real time clock device's
capabilities.
@retval EFI_SUCCESS The operation completed successfully.
@retval EFI_INVALID_PARAMETER Time is NULL.
@retval EFI_DEVICE_ERROR The time could not be retrieved due to a hardware error.
**/
EFI_STATUS
EFIAPI
EfiGetTime (
OUT EFI_TIME *Time,
OUT EFI_TIME_CAPABILITIES *Capabilities OPTIONAL
)
{
return mRT->GetTime (Time, Capabilities);
}
/**
This service is a wrapper for the UEFI Runtime Service SetTime().
The SetTime() function sets the real time clock device to the supplied time, and records the
current time zone and daylight savings time information. The SetTime() function is not allowed
to loop based on the current time. For example, if the device does not support a hardware reset
for the sub-resolution time, the code is not to implement the feature by waiting for the time to
wrap.
During runtime, if a PC-AT CMOS device is present in the platform the caller must synchronize
access to the device before calling SetTime().
@param Time A pointer to the current time. Type EFI_TIME is defined in the GetTime()
function description. Full error checking is performed on the different
fields of the EFI_TIME structure (refer to the EFI_TIME definition in the
GetTime() function description for full details), and EFI_INVALID_PARAMETER
is returned if any field is out of range.
@retval EFI_SUCCESS The operation completed successfully.
@retval EFI_INVALID_PARAMETER A time field is out of range.
@retval EFI_DEVICE_ERROR The time could not be set due to a hardware error.
**/
EFI_STATUS
EFIAPI
EfiSetTime (
IN EFI_TIME *Time
)
{
return mRT->SetTime (Time);
}
/**
This service is a wrapper for the UEFI Runtime Service GetWakeupTime().
The alarm clock time may be rounded from the set alarm clock time to be within the resolution
of the alarm clock device. The resolution of the alarm clock device is defined to be one second.
During runtime, if a PC-AT CMOS device is present in the platform the caller must synchronize
access to the device before calling GetWakeupTime().
@param Enabled Indicates if the alarm is currently enabled or disabled.
@param Pending Indicates if the alarm signal is pending and requires acknowledgement.
@param Time The current alarm setting. Type EFI_TIME is defined in the GetTime()
function description.
@retval EFI_SUCCESS The alarm settings were returned.
@retval EFI_INVALID_PARAMETER Enabled is NULL.
@retval EFI_INVALID_PARAMETER Pending is NULL.
@retval EFI_INVALID_PARAMETER Time is NULL.
@retval EFI_DEVICE_ERROR The wakeup time could not be retrieved due to a hardware error.
@retval EFI_UNSUPPORTED A wakeup timer is not supported on this platform.
**/
EFI_STATUS
EFIAPI
EfiGetWakeupTime (
OUT BOOLEAN *Enabled,
OUT BOOLEAN *Pending,
OUT EFI_TIME *Time
)
{
return mRT->GetWakeupTime (Enabled, Pending, Time);
}
/**
This service is a wrapper for the UEFI Runtime Service SetWakeupTime()
Setting a system wakeup alarm causes the system to wake up or power on at the set time.
When the alarm fires, the alarm signal is latched until it is acknowledged by calling SetWakeupTime()
to disable the alarm. If the alarm fires before the system is put into a sleeping or off state,
since the alarm signal is latched the system will immediately wake up. If the alarm fires while
the system is off and there is insufficient power to power on the system, the system is powered
on when power is restored.
@param Enable Enable or disable the wakeup alarm.
@param Time If Enable is TRUE, the time to set the wakeup alarm for. Type EFI_TIME
is defined in the GetTime() function description. If Enable is FALSE,
then this parameter is optional, and may be NULL.
@retval EFI_SUCCESS If Enable is TRUE, then the wakeup alarm was enabled.
If Enable is FALSE, then the wakeup alarm was disabled.
@retval EFI_INVALID_PARAMETER A time field is out of range.
@retval EFI_DEVICE_ERROR The wakeup time could not be set due to a hardware error.
@retval EFI_UNSUPPORTED A wakeup timer is not supported on this platform.
**/
EFI_STATUS
EFIAPI
EfiSetWakeupTime (
IN BOOLEAN Enable,
IN EFI_TIME *Time OPTIONAL
)
{
return mRT->SetWakeupTime (Enable, Time);
}
/**
This service is a wrapper for the UEFI Runtime Service GetVariable().
Each vendor may create and manage its own variables without the risk of name conflicts by
using a unique VendorGuid. When a variable is set its Attributes are supplied to indicate
how the data variable should be stored and maintained by the system. The attributes affect
when the variable may be accessed and volatility of the data. Any attempts to access a variable
that does not have the attribute set for runtime access will yield the EFI_NOT_FOUND error.
If the Data buffer is too small to hold the contents of the variable, the error EFI_BUFFER_TOO_SMALL
is returned and DataSize is set to the required buffer size to obtain the data.
@param VariableName the name of the vendor's variable, it's a Null-Terminated Unicode String
@param VendorGuid Unify identifier for vendor.
@param Attributes Point to memory location to return the attributes of variable. If the point
is NULL, the parameter would be ignored.
@param DataSize As input, point to the maxinum size of return Data-Buffer.
As output, point to the actual size of the returned Data-Buffer.
@param Data Point to return Data-Buffer.
@retval EFI_SUCCESS The function completed successfully.
@retval EFI_NOT_FOUND The variable was not found.
@retval EFI_BUFFER_TOO_SMALL The DataSize is too small for the result. DataSize has
been updated with the size needed to complete the request.
@retval EFI_INVALID_PARAMETER VariableName is NULL.
@retval EFI_INVALID_PARAMETER VendorGuid is NULL.
@retval EFI_INVALID_PARAMETER DataSize is NULL.
@retval EFI_INVALID_PARAMETER The DataSize is not too small and Data is NULL.
@retval EFI_DEVICE_ERROR The variable could not be retrieved due to a hardware error.
@retval EFI_SECURITY_VIOLATION The variable could not be retrieved due to an authentication failure.
**/
EFI_STATUS
EFIAPI
EfiGetVariable (
IN CHAR16 *VariableName,
IN EFI_GUID * VendorGuid,
OUT UINT32 *Attributes OPTIONAL,
IN OUT UINTN *DataSize,
OUT VOID *Data
)
{
return mRT->GetVariable (VariableName, VendorGuid, Attributes, DataSize, Data);
}
/**
This service is a wrapper for the UEFI Runtime Service GetNextVariableName().
GetNextVariableName() is called multiple times to retrieve the VariableName and VendorGuid of
all variables currently available in the system. On each call to GetNextVariableName() the
previous results are passed into the interface, and on output the interface returns the next
variable name data. When the entire variable list has been returned, the error EFI_NOT_FOUND
is returned.
@param VariableNameSize As input, point to maxinum size of variable name.
As output, point to actual size of varaible name.
@param VariableName As input, supplies the last VariableName that was returned by
GetNextVariableName().
As output, returns the name of variable. The name
string is Null-Terminated Unicode string.
@param VendorGuid As input, supplies the last VendorGuid that was returned by
GetNextVriableName().
As output, returns the VendorGuid of the current variable.
@retval EFI_SUCCESS The function completed successfully.
@retval EFI_NOT_FOUND The next variable was not found.
@retval EFI_BUFFER_TOO_SMALL The VariableNameSize is too small for the result.
VariableNameSize has been updated with the size needed
to complete the request.
@retval EFI_INVALID_PARAMETER VariableNameSize is NULL.
@retval EFI_INVALID_PARAMETER VariableName is NULL.
@retval EFI_INVALID_PARAMETER VendorGuid is NULL.
@retval EFI_DEVICE_ERROR The variable name could not be retrieved due to a hardware error.
**/
EFI_STATUS
EFIAPI
EfiGetNextVariableName (
IN OUT UINTN *VariableNameSize,
IN OUT CHAR16 *VariableName,
IN OUT EFI_GUID *VendorGuid
)
{
return mRT->GetNextVariableName (VariableNameSize, VariableName, VendorGuid);
}
/**
This service is a wrapper for the UEFI Runtime Service GetNextVariableName()
Variables are stored by the firmware and may maintain their values across power cycles. Each vendor
may create and manage its own variables without the risk of name conflicts by using a unique VendorGuid.
@param VariableName the name of the vendor's variable, it's a
Null-Terminated Unicode String
@param VendorGuid Unify identifier for vendor.
@param Attributes Point to memory location to return the attributes of variable. If the point
is NULL, the parameter would be ignored.
@param DataSize The size in bytes of Data-Buffer.
@param Data Point to the content of the variable.
@retval EFI_SUCCESS The firmware has successfully stored the variable and its data as
defined by the Attributes.
@retval EFI_INVALID_PARAMETER An invalid combination of attribute bits was supplied, or the
DataSize exceeds the maximum allowed.
@retval EFI_INVALID_PARAMETER VariableName is an empty Unicode string.
@retval EFI_OUT_OF_RESOURCES Not enough storage is available to hold the variable and its data.
@retval EFI_DEVICE_ERROR The variable could not be saved due to a hardware failure.
@retval EFI_WRITE_PROTECTED The variable in question is read-only.
@retval EFI_WRITE_PROTECTED The variable in question cannot be deleted.
@retval EFI_SECURITY_VIOLATION The variable could not be written due to EFI_VARIABLE_AUTHENTICATED_WRITE_ACCESS
set but the AuthInfo does NOT pass the validation check carried
out by the firmware.
@retval EFI_NOT_FOUND The variable trying to be updated or deleted was not found.
**/
EFI_STATUS
EFIAPI
EfiSetVariable (
IN CHAR16 *VariableName,
IN EFI_GUID *VendorGuid,
IN UINT32 Attributes,
IN UINTN DataSize,
IN VOID *Data
)
{
return mRT->SetVariable (VariableName, VendorGuid, Attributes, DataSize, Data);
}
/**
This service is a wrapper for the UEFI Runtime Service GetNextHighMonotonicCount().
The platform's monotonic counter is comprised of two 32-bit quantities: the high 32 bits and
the low 32 bits. During boot service time the low 32-bit value is volatile: it is reset to zero
on every system reset and is increased by 1 on every call to GetNextMonotonicCount(). The high
32-bit value is nonvolatile and is increased by 1 whenever the system resets or whenever the low
32-bit count (returned by GetNextMonoticCount()) overflows.
@param HighCount Pointer to returned value.
@retval EFI_SUCCESS The next high monotonic count was returned.
@retval EFI_DEVICE_ERROR The device is not functioning properly.
@retval EFI_INVALID_PARAMETER HighCount is NULL.
**/
EFI_STATUS
EFIAPI
EfiGetNextHighMonotonicCount (
OUT UINT32 *HighCount
)
{
return mRT->GetNextHighMonotonicCount (HighCount);
}
/**
This service is a wrapper for the UEFI Runtime Service ConvertPointer().
The ConvertPointer() function is used by an EFI component during the SetVirtualAddressMap() operation.
ConvertPointer()must be called using physical address pointers during the execution of SetVirtualAddressMap().
@param DebugDisposition Supplies type information for the pointer being converted.
@param Address The pointer to a pointer that is to be fixed to be the
value needed for the new virtual address mapping being
applied.
@retval EFI_SUCCESS The pointer pointed to by Address was modified.
@retval EFI_NOT_FOUND The pointer pointed to by Address was not found to be part of
the current memory map. This is normally fatal.
@retval EFI_INVALID_PARAMETER Address is NULL.
@retval EFI_INVALID_PARAMETER *Address is NULL and DebugDispositio
**/
EFI_STATUS
EFIAPI
EfiConvertPointer (
IN UINTN DebugDisposition,
IN OUT VOID **Address
)
{
return gRT->ConvertPointer (DebugDisposition, Address);
}
/**
Determines the new virtual address that is to be used on subsequent memory accesses.
For IA32, x64, and EBC, this service is a wrapper for the UEFI Runtime Service
ConvertPointer(). See the UEFI Specification for details.
For IPF, this function interprets Address as a pointer to an EFI_PLABEL structure
and both the EntryPoint and GP fields of an EFI_PLABEL are converted from physical
to virtiual addressing. Since IPF allows the GP to point to an address outside
a PE/COFF image, the physical to virtual offset for the EntryPoint field is used
to adjust the GP field. The UEFI Runtime Service ConvertPointer() is used to convert
EntryPoint and the status code for this conversion is always returned. If the convertion
of EntryPoint fails, then neither EntryPoint nor GP are modified. See the UEFI
Specification for details on the UEFI Runtime Service ConvertPointer().
@param DebugDisposition Supplies type information for the pointer being converted.
@param Address The pointer to a pointer that is to be fixed to be the
value needed for the new virtual address mapping being
applied.
@return EFI_STATUS value from EfiConvertPointer().
**/
EFI_STATUS
EFIAPI
EfiConvertFunctionPointer (
IN UINTN DebugDisposition,
IN OUT VOID **Address
)
{
return EfiConvertPointer (DebugDisposition, Address);
}
/**
Convert the standard Lib double linked list to a virtual mapping.
This service uses EfiConvertPointer() to walk a double linked list and convert all the link
pointers to their virtual mappings. This function is only guaranteed to work during the
EVT_SIGNAL_VIRTUAL_ADDRESS_CHANGE event and calling it at other times has undefined results.
@param DebugDisposition Supplies type information for the pointer being converted.
@param ListHead Head of linked list to convert.
@retval EFI_SUCCESS Success to execute the function.
@retval !EFI_SUCCESS Failed to e3xecute the function.
**/
EFI_STATUS
EFIAPI
EfiConvertList (
IN UINTN DebugDisposition,
IN OUT LIST_ENTRY *ListHead
)
{
LIST_ENTRY *Link;
LIST_ENTRY *NextLink;
//
// For NULL List, return EFI_SUCCESS
//
if (ListHead == NULL) {
return EFI_SUCCESS;
}
//
// Convert all the ForwardLink & BackLink pointers in the list
//
Link = ListHead;
do {
NextLink = Link->ForwardLink;
EfiConvertPointer (
Link->ForwardLink == ListHead ? DebugDisposition : 0,
(VOID **) &Link->ForwardLink
);
EfiConvertPointer (
Link->BackLink == ListHead ? DebugDisposition : 0,
(VOID **) &Link->BackLink
);
Link = NextLink;
} while (Link != ListHead);
return EFI_SUCCESS;
}
/**
This service is a wrapper for the UEFI Runtime Service SetVirtualAddressMap().
The SetVirtualAddressMap() function is used by the OS loader. The function can only be called
at runtime, and is called by the owner of the system's memory map. I.e., the component which
called ExitBootServices(). All events of type EVT_SIGNAL_VIRTUAL_ADDRESS_CHANGE must be signaled
before SetVirtualAddressMap() returns.
@param MemoryMapSize The size in bytes of VirtualMap.
@param DescriptorSize The size in bytes of an entry in the VirtualMap.
@param DescriptorVersion The version of the structure entries in VirtualMap.
@param VirtualMap An array of memory descriptors which contain new virtual
address mapping information for all runtime ranges. Type
EFI_MEMORY_DESCRIPTOR is defined in the
GetMemoryMap() function description.
@retval EFI_SUCCESS The virtual address map has been applied.
@retval EFI_UNSUPPORTED EFI firmware is not at runtime, or the EFI firmware is already in
virtual address mapped mode.
@retval EFI_INVALID_PARAMETER DescriptorSize or DescriptorVersion is
invalid.
@retval EFI_NO_MAPPING A virtual address was not supplied for a range in the memory
map that requires a mapping.
@retval EFI_NOT_FOUND A virtual address was supplied for an address that is not found
in the memory map.
**/
EFI_STATUS
EFIAPI
EfiSetVirtualAddressMap (
IN UINTN MemoryMapSize,
IN UINTN DescriptorSize,
IN UINT32 DescriptorVersion,
IN CONST EFI_MEMORY_DESCRIPTOR *VirtualMap
)
{
return mRT->SetVirtualAddressMap (
MemoryMapSize,
DescriptorSize,
DescriptorVersion,
(EFI_MEMORY_DESCRIPTOR *) VirtualMap
);
}
/**
This service is a wrapper for the UEFI Runtime Service UpdateCapsule().
Passes capsules to the firmware with both virtual and physical mapping. Depending on the intended
consumption, the firmware may process the capsule immediately. If the payload should persist across a
system reset, the reset value returned from EFI_QueryCapsuleCapabilities must be passed into ResetSystem()
and will cause the capsule to be processed by the firmware as part of the reset process.
@param CapsuleHeaderArray Virtual pointer to an array of virtual pointers to the capsules
being passed into update capsule. Each capsules is assumed to
stored in contiguous virtual memory. The capsules in the
CapsuleHeaderArray must be the same capsules as the
ScatterGatherList. The CapsuleHeaderArray must
have the capsules in the same order as the ScatterGatherList.
@param CapsuleCount Number of pointers to EFI_CAPSULE_HEADER in
CaspuleHeaderArray.
@param ScatterGatherList Physical pointer to a set of
EFI_CAPSULE_BLOCK_DESCRIPTOR that describes the
location in physical memory of a set of capsules. See Related
Definitions for an explanation of how more than one capsule is
passed via this interface. The capsules in the
ScatterGatherList must be in the same order as the
CapsuleHeaderArray. This parameter is only referenced if
the capsules are defined to persist across system reset.
@retval EFI_SUCCESS Valid capsule was passed. If CAPSULE_FLAGS_PERSIT_ACROSS_RESET is not set,
the capsule has been successfully processed by the firmware.
@retval EFI_INVALID_PARAMETER CapsuleSize or HeaderSize is NULL.
@retval EFI_INVALID_PARAMETER CapsuleCount is 0
@retval EFI_DEVICE_ERROR The capsule update was started, but failed due to a device error.
@retval EFI_UNSUPPORTED The capsule type is not supported on this platform.
@retval EFI_OUT_OF_RESOURCES There were insufficient resources to process the capsule.
**/
EFI_STATUS
EFIAPI
EfiUpdateCapsule (
IN EFI_CAPSULE_HEADER **CapsuleHeaderArray,
IN UINTN CapsuleCount,
IN EFI_PHYSICAL_ADDRESS ScatterGatherList OPTIONAL
)
{
return mRT->UpdateCapsule (
CapsuleHeaderArray,
CapsuleCount,
ScatterGatherList
);
}
/**
This service is a wrapper for the UEFI Runtime Service QueryCapsuleCapabilities().
The QueryCapsuleCapabilities() function allows a caller to test to see if a capsule or
capsules can be updated via UpdateCapsule(). The Flags values in the capsule header and
size of the entire capsule is checked.
If the caller needs to query for generic capsule capability a fake EFI_CAPSULE_HEADER can be
constructed where CapsuleImageSize is equal to HeaderSize that is equal to sizeof
(EFI_CAPSULE_HEADER). To determine reset requirements,
CAPSULE_FLAGS_PERSIST_ACROSS_RESET should be set in the Flags field of the
EFI_CAPSULE_HEADER.
The firmware must support any capsule that has the
CAPSULE_FLAGS_PERSIST_ACROSS_RESET flag set in EFI_CAPSULE_HEADER. The
firmware sets the policy for what capsules are supported that do not have the
CAPSULE_FLAGS_PERSIST_ACROSS_RESET flag set.
@param CapsuleHeaderArray Virtual pointer to an array of virtual pointers to the capsules
being passed into update capsule. The capsules are assumed to
stored in contiguous virtual memory.
@param CapsuleCount Number of pointers to EFI_CAPSULE_HEADER in
CaspuleHeaderArray.
@param MaximumCapsuleSize On output the maximum size that UpdateCapsule() can
support as an argument to UpdateCapsule() via
CapsuleHeaderArray and ScatterGatherList.
Undefined on input.
@param ResetType Returns the type of reset required for the capsule update.
@retval EFI_SUCCESS Valid answer returned.
@retval EFI_INVALID_PARAMETER MaximumCapsuleSize is NULL.
@retval EFI_UNSUPPORTED The capsule type is not supported on this platform, and
MaximumCapsuleSize and ResetType are undefined.
@retval EFI_OUT_OF_RESOURCES There were insufficient resources to process the query request.
**/
EFI_STATUS
EFIAPI
EfiQueryCapsuleCapabilities (
IN EFI_CAPSULE_HEADER **CapsuleHeaderArray,
IN UINTN CapsuleCount,
OUT UINT64 *MaximumCapsuleSize,
OUT EFI_RESET_TYPE *ResetType
)
{
return mRT->QueryCapsuleCapabilities (
CapsuleHeaderArray,
CapsuleCount,
MaximumCapsuleSize,
ResetType
);
}
/**
This service is a wrapper for the UEFI Runtime Service QueryVariableInfo().
The QueryVariableInfo() function allows a caller to obtain the information about the
maximum size of the storage space available for the EFI variables, the remaining size of the storage
space available for the EFI variables and the maximum size of each individual EFI variable,
associated with the attributes specified.
The returned MaximumVariableStorageSize, RemainingVariableStorageSize,
MaximumVariableSize information may change immediately after the call based on other
runtime activities including asynchronous error events. Also, these values associated with different
attributes are not additive in nature.
@param Attributes Attributes bitmask to specify the type of variables on
which to return information. Refer to the
GetVariable() function description.
@param MaximumVariableStorageSize
On output the maximum size of the storage space
available for the EFI variables associated with the
attributes specified.
@param RemainingVariableStorageSize
Returns the remaining size of the storage space
available for the EFI variables associated with the
attributes specified..
@param MaximumVariableSize Returns the maximum size of the individual EFI
variables associated with the attributes specified.
@retval EFI_SUCCESS Valid answer returned.
@retval EFI_INVALID_PARAMETER An invalid combination of attribute bits was supplied.
@retval EFI_UNSUPPORTED EFI_UNSUPPORTED The attribute is not supported on this platform, and the
MaximumVariableStorageSize,
RemainingVariableStorageSize, MaximumVariableSize
are undefined.
**/
EFI_STATUS
EFIAPI
EfiQueryVariableInfo (
IN UINT32 Attributes,
OUT UINT64 *MaximumVariableStorageSize,
OUT UINT64 *RemainingVariableStorageSize,
OUT UINT64 *MaximumVariableSize
)
{
return mRT->QueryVariableInfo (
Attributes,
MaximumVariableStorageSize,
RemainingVariableStorageSize,
MaximumVariableSize
);
}
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