428 lines
15 KiB
C
428 lines
15 KiB
C
/** @file
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Timer Architecture Protocol driver of the ARM flavor
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Copyright (c) 2011-2013 ARM Ltd. All rights reserved.<BR>
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SPDX-License-Identifier: BSD-2-Clause-Patent
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**/
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#include <PiDxe.h>
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#include <Library/ArmLib.h>
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#include <Library/BaseLib.h>
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#include <Library/DebugLib.h>
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#include <Library/BaseMemoryLib.h>
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#include <Library/UefiBootServicesTableLib.h>
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#include <Library/UefiLib.h>
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#include <Library/PcdLib.h>
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#include <Library/IoLib.h>
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#include <Library/ArmGenericTimerCounterLib.h>
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#include <Protocol/Timer.h>
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#include <Protocol/HardwareInterrupt.h>
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// The notification function to call on every timer interrupt.
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EFI_TIMER_NOTIFY mTimerNotifyFunction = (EFI_TIMER_NOTIFY)NULL;
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EFI_EVENT EfiExitBootServicesEvent = (EFI_EVENT)NULL;
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// The current period of the timer interrupt
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UINT64 mTimerPeriod = 0;
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// The latest Timer Tick calculated for mTimerPeriod
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UINT64 mTimerTicks = 0;
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// Number of elapsed period since the last Timer interrupt
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UINT64 mElapsedPeriod = 1;
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// Cached copy of the Hardware Interrupt protocol instance
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EFI_HARDWARE_INTERRUPT_PROTOCOL *gInterrupt = NULL;
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/**
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This function registers the handler NotifyFunction so it is called every time
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the timer interrupt fires. It also passes the amount of time since the last
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handler call to the NotifyFunction. If NotifyFunction is NULL, then the
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handler is unregistered. If the handler is registered, then EFI_SUCCESS is
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returned. If the CPU does not support registering a timer interrupt handler,
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then EFI_UNSUPPORTED is returned. If an attempt is made to register a handler
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when a handler is already registered, then EFI_ALREADY_STARTED is returned.
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If an attempt is made to unregister a handler when a handler is not registered,
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then EFI_INVALID_PARAMETER is returned. If an error occurs attempting to
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register the NotifyFunction with the timer interrupt, then EFI_DEVICE_ERROR
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is returned.
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@param This The EFI_TIMER_ARCH_PROTOCOL instance.
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@param NotifyFunction The function to call when a timer interrupt fires. This
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function executes at TPL_HIGH_LEVEL. The DXE Core will
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register a handler for the timer interrupt, so it can know
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how much time has passed. This information is used to
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signal timer based events. NULL will unregister the handler.
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@retval EFI_SUCCESS The timer handler was registered.
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@retval EFI_UNSUPPORTED The platform does not support timer interrupts.
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@retval EFI_ALREADY_STARTED NotifyFunction is not NULL, and a handler is already
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registered.
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@retval EFI_INVALID_PARAMETER NotifyFunction is NULL, and a handler was not
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previously registered.
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@retval EFI_DEVICE_ERROR The timer handler could not be registered.
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**/
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EFI_STATUS
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EFIAPI
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TimerDriverRegisterHandler (
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IN EFI_TIMER_ARCH_PROTOCOL *This,
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IN EFI_TIMER_NOTIFY NotifyFunction
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)
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{
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if ((NotifyFunction == NULL) && (mTimerNotifyFunction == NULL)) {
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return EFI_INVALID_PARAMETER;
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}
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if ((NotifyFunction != NULL) && (mTimerNotifyFunction != NULL)) {
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return EFI_ALREADY_STARTED;
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}
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mTimerNotifyFunction = NotifyFunction;
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return EFI_SUCCESS;
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}
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/**
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Disable the timer
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**/
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VOID
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EFIAPI
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ExitBootServicesEvent (
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IN EFI_EVENT Event,
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IN VOID *Context
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)
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{
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ArmGenericTimerDisableTimer ();
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}
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/**
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This function adjusts the period of timer interrupts to the value specified
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by TimerPeriod. If the timer period is updated, then the selected timer
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period is stored in EFI_TIMER.TimerPeriod, and EFI_SUCCESS is returned. If
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the timer hardware is not programmable, then EFI_UNSUPPORTED is returned.
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If an error occurs while attempting to update the timer period, then the
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timer hardware will be put back in its state prior to this call, and
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EFI_DEVICE_ERROR is returned. If TimerPeriod is 0, then the timer interrupt
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is disabled. This is not the same as disabling the CPU's interrupts.
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Instead, it must either turn off the timer hardware, or it must adjust the
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interrupt controller so that a CPU interrupt is not generated when the timer
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interrupt fires.
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@param This The EFI_TIMER_ARCH_PROTOCOL instance.
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@param TimerPeriod The rate to program the timer interrupt in 100 nS units. If
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the timer hardware is not programmable, then EFI_UNSUPPORTED is
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returned. If the timer is programmable, then the timer period
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will be rounded up to the nearest timer period that is supported
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by the timer hardware. If TimerPeriod is set to 0, then the
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timer interrupts will be disabled.
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@retval EFI_SUCCESS The timer period was changed.
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@retval EFI_UNSUPPORTED The platform cannot change the period of the timer interrupt.
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@retval EFI_DEVICE_ERROR The timer period could not be changed due to a device error.
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**/
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EFI_STATUS
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EFIAPI
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TimerDriverSetTimerPeriod (
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IN EFI_TIMER_ARCH_PROTOCOL *This,
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IN UINT64 TimerPeriod
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)
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{
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UINT64 CounterValue;
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UINT64 TimerTicks;
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EFI_TPL OriginalTPL;
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// Always disable the timer
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ArmGenericTimerDisableTimer ();
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if (TimerPeriod != 0) {
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// mTimerTicks = TimerPeriod in 1ms unit x Frequency.10^-3
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// = TimerPeriod.10^-4 x Frequency.10^-3
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// = (TimerPeriod x Frequency) x 10^-7
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TimerTicks = MultU64x32 (TimerPeriod, ArmGenericTimerGetTimerFreq ());
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TimerTicks = DivU64x32 (TimerTicks, 10000000U);
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// Raise TPL to update the mTimerTicks and mTimerPeriod to ensure these values
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// are coherent in the interrupt handler
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OriginalTPL = gBS->RaiseTPL (TPL_HIGH_LEVEL);
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mTimerTicks = TimerTicks;
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mTimerPeriod = TimerPeriod;
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mElapsedPeriod = 1;
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gBS->RestoreTPL (OriginalTPL);
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// Get value of the current timer
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CounterValue = ArmGenericTimerGetSystemCount ();
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// Set the interrupt in Current Time + mTimerTick
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ArmGenericTimerSetCompareVal (CounterValue + mTimerTicks);
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// Enable the timer
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ArmGenericTimerEnableTimer ();
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} else {
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// Save the new timer period
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mTimerPeriod = TimerPeriod;
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// Reset the elapsed period
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mElapsedPeriod = 1;
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}
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return EFI_SUCCESS;
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}
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/**
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This function retrieves the period of timer interrupts in 100 ns units,
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returns that value in TimerPeriod, and returns EFI_SUCCESS. If TimerPeriod
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is NULL, then EFI_INVALID_PARAMETER is returned. If a TimerPeriod of 0 is
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returned, then the timer is currently disabled.
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@param This The EFI_TIMER_ARCH_PROTOCOL instance.
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@param TimerPeriod A pointer to the timer period to retrieve in 100 ns units. If
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0 is returned, then the timer is currently disabled.
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@retval EFI_SUCCESS The timer period was returned in TimerPeriod.
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@retval EFI_INVALID_PARAMETER TimerPeriod is NULL.
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**/
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EFI_STATUS
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EFIAPI
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TimerDriverGetTimerPeriod (
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IN EFI_TIMER_ARCH_PROTOCOL *This,
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OUT UINT64 *TimerPeriod
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)
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{
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if (TimerPeriod == NULL) {
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return EFI_INVALID_PARAMETER;
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}
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*TimerPeriod = mTimerPeriod;
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return EFI_SUCCESS;
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}
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/**
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This function generates a soft timer interrupt. If the platform does not support soft
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timer interrupts, then EFI_UNSUPPORTED is returned. Otherwise, EFI_SUCCESS is returned.
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If a handler has been registered through the EFI_TIMER_ARCH_PROTOCOL.RegisterHandler()
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service, then a soft timer interrupt will be generated. If the timer interrupt is
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enabled when this service is called, then the registered handler will be invoked. The
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registered handler should not be able to distinguish a hardware-generated timer
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interrupt from a software-generated timer interrupt.
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@param This The EFI_TIMER_ARCH_PROTOCOL instance.
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@retval EFI_SUCCESS The soft timer interrupt was generated.
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@retval EFI_UNSUPPORTED The platform does not support the generation of soft timer interrupts.
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**/
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EFI_STATUS
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EFIAPI
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TimerDriverGenerateSoftInterrupt (
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IN EFI_TIMER_ARCH_PROTOCOL *This
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)
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{
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return EFI_UNSUPPORTED;
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}
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/**
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Interface structure for the Timer Architectural Protocol.
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@par Protocol Description:
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This protocol provides the services to initialize a periodic timer
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interrupt, and to register a handler that is called each time the timer
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interrupt fires. It may also provide a service to adjust the rate of the
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periodic timer interrupt. When a timer interrupt occurs, the handler is
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passed the amount of time that has passed since the previous timer
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interrupt.
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@param RegisterHandler
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Registers a handler that will be called each time the
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timer interrupt fires. TimerPeriod defines the minimum
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time between timer interrupts, so TimerPeriod will also
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be the minimum time between calls to the registered
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handler.
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@param SetTimerPeriod
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Sets the period of the timer interrupt in 100 nS units.
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This function is optional, and may return EFI_UNSUPPORTED.
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If this function is supported, then the timer period will
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be rounded up to the nearest supported timer period.
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@param GetTimerPeriod
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Retrieves the period of the timer interrupt in 100 nS units.
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@param GenerateSoftInterrupt
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Generates a soft timer interrupt that simulates the firing of
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the timer interrupt. This service can be used to invoke the registered handler if the timer interrupt has been masked for
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a period of time.
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**/
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EFI_TIMER_ARCH_PROTOCOL gTimer = {
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TimerDriverRegisterHandler,
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TimerDriverSetTimerPeriod,
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TimerDriverGetTimerPeriod,
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TimerDriverGenerateSoftInterrupt
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};
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/**
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C Interrupt Handler called in the interrupt context when Source interrupt is active.
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@param Source Source of the interrupt. Hardware routing off a specific platform defines
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what source means.
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@param SystemContext Pointer to system register context. Mostly used by debuggers and will
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update the system context after the return from the interrupt if
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modified. Don't change these values unless you know what you are doing
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**/
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VOID
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EFIAPI
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TimerInterruptHandler (
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IN HARDWARE_INTERRUPT_SOURCE Source,
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IN EFI_SYSTEM_CONTEXT SystemContext
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)
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{
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EFI_TPL OriginalTPL;
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UINT64 CurrentValue;
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UINT64 CompareValue;
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//
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// DXE core uses this callback for the EFI timer tick. The DXE core uses locks
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// that raise to TPL_HIGH and then restore back to current level. Thus we need
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// to make sure TPL level is set to TPL_HIGH while we are handling the timer tick.
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//
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OriginalTPL = gBS->RaiseTPL (TPL_HIGH_LEVEL);
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// Signal end of interrupt early to help avoid losing subsequent ticks
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// from long duration handlers
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gInterrupt->EndOfInterrupt (gInterrupt, Source);
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// Check if the timer interrupt is active
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if ((ArmGenericTimerGetTimerCtrlReg () ) & ARM_ARCH_TIMER_ISTATUS) {
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if (mTimerNotifyFunction) {
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mTimerNotifyFunction (mTimerPeriod * mElapsedPeriod);
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}
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//
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// Reload the Timer
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//
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// Get current counter value
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CurrentValue = ArmGenericTimerGetSystemCount ();
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// Get the counter value to compare with
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CompareValue = ArmGenericTimerGetCompareVal ();
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// This loop is needed in case we missed interrupts (eg: case when the interrupt handling
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// has taken longer than mTickPeriod).
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// Note: Physical Counter is counting up
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mElapsedPeriod = 0;
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do {
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CompareValue += mTimerTicks;
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mElapsedPeriod++;
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} while (CompareValue < CurrentValue);
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// Set next compare value
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ArmGenericTimerSetCompareVal (CompareValue);
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ArmGenericTimerReenableTimer ();
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ArmInstructionSynchronizationBarrier ();
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}
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gBS->RestoreTPL (OriginalTPL);
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}
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/**
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Initialize the state information for the Timer Architectural Protocol and
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the Timer Debug support protocol that allows the debugger to break into a
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running program.
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@param ImageHandle of the loaded driver
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@param SystemTable Pointer to the System Table
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@retval EFI_SUCCESS Protocol registered
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@retval EFI_OUT_OF_RESOURCES Cannot allocate protocol data structure
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@retval EFI_DEVICE_ERROR Hardware problems
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**/
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EFI_STATUS
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EFIAPI
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TimerInitialize (
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IN EFI_HANDLE ImageHandle,
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IN EFI_SYSTEM_TABLE *SystemTable
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)
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{
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EFI_HANDLE Handle = NULL;
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EFI_STATUS Status;
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UINTN TimerCtrlReg;
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UINT32 TimerHypIntrNum;
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if (ArmIsArchTimerImplemented () == 0) {
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DEBUG ((EFI_D_ERROR, "ARM Architectural Timer is not available in the CPU, hence cann't use this Driver \n"));
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ASSERT (0);
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}
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// Find the interrupt controller protocol. ASSERT if not found.
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Status = gBS->LocateProtocol (&gHardwareInterruptProtocolGuid, NULL, (VOID **)&gInterrupt);
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ASSERT_EFI_ERROR (Status);
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// Disable the timer
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TimerCtrlReg = ArmGenericTimerGetTimerCtrlReg ();
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TimerCtrlReg |= ARM_ARCH_TIMER_IMASK;
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TimerCtrlReg &= ~ARM_ARCH_TIMER_ENABLE;
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ArmGenericTimerSetTimerCtrlReg (TimerCtrlReg);
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Status = TimerDriverSetTimerPeriod (&gTimer, 0);
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ASSERT_EFI_ERROR (Status);
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// Install secure and Non-secure interrupt handlers
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// Note: Because it is not possible to determine the security state of the
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// CPU dynamically, we just install interrupt handler for both sec and non-sec
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// timer PPI
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Status = gInterrupt->RegisterInterruptSource (gInterrupt, PcdGet32 (PcdArmArchTimerVirtIntrNum), TimerInterruptHandler);
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ASSERT_EFI_ERROR (Status);
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//
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// The hypervisor timer interrupt may be omitted by implementations that
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// execute under virtualization.
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//
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TimerHypIntrNum = PcdGet32 (PcdArmArchTimerHypIntrNum);
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if (TimerHypIntrNum != 0) {
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Status = gInterrupt->RegisterInterruptSource (gInterrupt, TimerHypIntrNum, TimerInterruptHandler);
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ASSERT_EFI_ERROR (Status);
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}
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Status = gInterrupt->RegisterInterruptSource (gInterrupt, PcdGet32 (PcdArmArchTimerSecIntrNum), TimerInterruptHandler);
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ASSERT_EFI_ERROR (Status);
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Status = gInterrupt->RegisterInterruptSource (gInterrupt, PcdGet32 (PcdArmArchTimerIntrNum), TimerInterruptHandler);
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ASSERT_EFI_ERROR (Status);
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// Set up default timer
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Status = TimerDriverSetTimerPeriod (&gTimer, FixedPcdGet32(PcdTimerPeriod)); // TIMER_DEFAULT_PERIOD
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ASSERT_EFI_ERROR (Status);
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// Install the Timer Architectural Protocol onto a new handle
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Status = gBS->InstallMultipleProtocolInterfaces(
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&Handle,
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&gEfiTimerArchProtocolGuid, &gTimer,
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NULL
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);
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ASSERT_EFI_ERROR(Status);
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// Everything is ready, unmask and enable timer interrupts
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TimerCtrlReg = ARM_ARCH_TIMER_ENABLE;
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ArmGenericTimerSetTimerCtrlReg (TimerCtrlReg);
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// Register for an ExitBootServicesEvent
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Status = gBS->CreateEvent (EVT_SIGNAL_EXIT_BOOT_SERVICES, TPL_NOTIFY, ExitBootServicesEvent, NULL, &EfiExitBootServicesEvent);
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ASSERT_EFI_ERROR (Status);
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return Status;
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}
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