mirror of https://github.com/acidanthera/audk.git
221 lines
7.2 KiB
C
221 lines
7.2 KiB
C
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/** @file
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Copyright (c) 2016 HP Development Company, L.P.
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Copyright (c) 2016 - 2018, ARM Limited. All rights reserved.
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This program and the accompanying materials
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are licensed and made available under the terms and conditions of the BSD License
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which accompanies this distribution. The full text of the license may be found at
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http://opensource.org/licenses/bsd-license.php
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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**/
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#include <Base.h>
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#include <Pi/PiMmCis.h>
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#include <Library/ArmSvcLib.h>
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#include <Library/ArmLib.h>
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#include <Library/BaseMemoryLib.h>
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#include <Library/DebugLib.h>
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#include <Library/HobLib.h>
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#include <Protocol/DebugSupport.h> // for EFI_SYSTEM_CONTEXT
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#include <Guid/ZeroGuid.h>
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#include <Guid/MmramMemoryReserve.h>
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#include <IndustryStandard/ArmStdSmc.h>
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#include "StandaloneMmCpu.h"
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EFI_STATUS
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EFIAPI
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MmFoundationEntryRegister (
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IN CONST EFI_MM_CONFIGURATION_PROTOCOL *This,
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IN EFI_MM_ENTRY_POINT MmEntryPoint
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);
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//
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// On ARM platforms every event is expected to have a GUID associated with
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// it. It will be used by the MM Entry point to find the handler for the
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// event. It will either be populated in a EFI_MM_COMMUNICATE_HEADER by the
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// caller of the event (e.g. MM_COMMUNICATE SMC) or by the CPU driver
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// (e.g. during an asynchronous event). In either case, this context is
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// maintained in an array which has an entry for each CPU. The pointer to this
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// array is held in PerCpuGuidedEventContext. Memory is allocated once the
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// number of CPUs in the system are made known through the
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// MP_INFORMATION_HOB_DATA.
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//
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EFI_MM_COMMUNICATE_HEADER **PerCpuGuidedEventContext = NULL;
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// Descriptor with whereabouts of memory used for communication with the normal world
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EFI_MMRAM_DESCRIPTOR mNsCommBuffer;
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MP_INFORMATION_HOB_DATA *mMpInformationHobData;
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EFI_MM_CONFIGURATION_PROTOCOL mMmConfig = {
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0,
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MmFoundationEntryRegister
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};
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STATIC EFI_MM_ENTRY_POINT mMmEntryPoint = NULL;
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EFI_STATUS
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PiMmStandloneArmTfCpuDriverEntry (
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IN UINTN EventId,
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IN UINTN CpuNumber,
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IN UINTN NsCommBufferAddr
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)
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{
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EFI_MM_COMMUNICATE_HEADER *GuidedEventContext = NULL;
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EFI_MM_ENTRY_CONTEXT MmEntryPointContext = {0};
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EFI_STATUS Status;
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UINTN NsCommBufferSize;
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DEBUG ((DEBUG_INFO, "Received event - 0x%x on cpu %d\n", EventId, CpuNumber));
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Status = EFI_SUCCESS;
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//
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// ARM TF passes SMC FID of the MM_COMMUNICATE interface as the Event ID upon
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// receipt of a synchronous MM request. Use the Event ID to distinguish
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// between synchronous and asynchronous events.
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//
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if (ARM_SMC_ID_MM_COMMUNICATE_AARCH64 != EventId) {
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DEBUG ((DEBUG_INFO, "UnRecognized Event - 0x%x\n", EventId));
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return EFI_INVALID_PARAMETER;
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}
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// Perform parameter validation of NsCommBufferAddr
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if (NsCommBufferAddr && (NsCommBufferAddr < mNsCommBuffer.PhysicalStart))
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return EFI_ACCESS_DENIED;
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if ((NsCommBufferAddr + sizeof (EFI_MM_COMMUNICATE_HEADER)) >=
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(mNsCommBuffer.PhysicalStart + mNsCommBuffer.PhysicalSize))
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return EFI_INVALID_PARAMETER;
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// Find out the size of the buffer passed
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NsCommBufferSize = ((EFI_MM_COMMUNICATE_HEADER *) NsCommBufferAddr)->MessageLength +
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sizeof (EFI_MM_COMMUNICATE_HEADER);
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// perform bounds check.
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if (NsCommBufferAddr + NsCommBufferSize >=
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mNsCommBuffer.PhysicalStart + mNsCommBuffer.PhysicalSize)
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return EFI_ACCESS_DENIED;
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// Now that the secure world can see the normal world buffer, allocate
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// memory to copy the communication buffer to the secure world.
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Status = mMmst->MmAllocatePool (
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EfiRuntimeServicesData,
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NsCommBufferSize,
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(VOID **) &GuidedEventContext
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);
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if (Status != EFI_SUCCESS) {
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DEBUG ((DEBUG_INFO, "Mem alloc failed - 0x%x\n", EventId));
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return EFI_OUT_OF_RESOURCES;
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}
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// X1 contains the VA of the normal world memory accessible from
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// S-EL0
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CopyMem (GuidedEventContext, (CONST VOID *) NsCommBufferAddr, NsCommBufferSize);
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// Stash the pointer to the allocated Event Context for this CPU
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PerCpuGuidedEventContext[CpuNumber] = GuidedEventContext;
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MmEntryPointContext.CurrentlyExecutingCpu = CpuNumber;
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MmEntryPointContext.NumberOfCpus = mMpInformationHobData->NumberOfProcessors;
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// Populate the MM system table with MP and state information
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mMmst->CurrentlyExecutingCpu = CpuNumber;
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mMmst->NumberOfCpus = mMpInformationHobData->NumberOfProcessors;
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mMmst->CpuSaveStateSize = 0;
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mMmst->CpuSaveState = NULL;
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if (mMmEntryPoint == NULL) {
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DEBUG ((DEBUG_INFO, "Mm Entry point Not Found\n"));
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return EFI_UNSUPPORTED;
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}
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mMmEntryPoint (&MmEntryPointContext);
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// Free the memory allocation done earlier and reset the per-cpu context
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ASSERT (GuidedEventContext);
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CopyMem ((VOID *)NsCommBufferAddr, (CONST VOID *) GuidedEventContext, NsCommBufferSize);
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Status = mMmst->MmFreePool ((VOID *) GuidedEventContext);
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if (Status != EFI_SUCCESS) {
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return EFI_OUT_OF_RESOURCES;
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}
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PerCpuGuidedEventContext[CpuNumber] = NULL;
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return Status;
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}
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EFI_STATUS
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EFIAPI
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MmFoundationEntryRegister (
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IN CONST EFI_MM_CONFIGURATION_PROTOCOL *This,
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IN EFI_MM_ENTRY_POINT MmEntryPoint
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)
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{
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// store the entry point in a global
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mMmEntryPoint = MmEntryPoint;
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return EFI_SUCCESS;
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}
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/**
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This function is the main entry point for an MM handler dispatch
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or communicate-based callback.
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@param DispatchHandle The unique handle assigned to this handler by MmiHandlerRegister().
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@param Context Points to an optional handler context which was specified when the handler was registered.
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@param CommBuffer A pointer to a collection of data in memory that will
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be conveyed from a non-MM environment into an MM environment.
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@param CommBufferSize The size of the CommBuffer.
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@return Status Code
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**/
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EFI_STATUS
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EFIAPI
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PiMmCpuTpFwRootMmiHandler (
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IN EFI_HANDLE DispatchHandle,
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IN CONST VOID *Context, OPTIONAL
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IN OUT VOID *CommBuffer, OPTIONAL
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IN OUT UINTN *CommBufferSize OPTIONAL
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)
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{
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EFI_STATUS Status;
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UINTN CpuNumber;
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ASSERT (Context == NULL);
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ASSERT (CommBuffer == NULL);
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ASSERT (CommBufferSize == NULL);
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CpuNumber = mMmst->CurrentlyExecutingCpu;
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if (!PerCpuGuidedEventContext[CpuNumber])
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return EFI_NOT_FOUND;
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DEBUG ((DEBUG_INFO, "CommBuffer - 0x%x, CommBufferSize - 0x%x\n",
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PerCpuGuidedEventContext[CpuNumber],
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PerCpuGuidedEventContext[CpuNumber]->MessageLength));
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Status = mMmst->MmiManage (
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&PerCpuGuidedEventContext[CpuNumber]->HeaderGuid,
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NULL,
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PerCpuGuidedEventContext[CpuNumber]->Data,
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&PerCpuGuidedEventContext[CpuNumber]->MessageLength
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);
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if (Status != EFI_SUCCESS) {
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DEBUG ((DEBUG_WARN, "Unable to manage Guided Event - %d\n", Status));
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}
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return Status;
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}
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