mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 1 | /** @file
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| 2 | Timer Architectural Protocol module using High Precesion Event Timer (HPET)
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| 3 |
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Tycho Nightingale | 97be280 | 2014-06-20 07:18:08 +0000 | [diff] [blame] | 4 | Copyright (c) 2011 - 2014, Intel Corporation. All rights reserved.<BR>
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 5 | This program and the accompanying materials
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| 6 | are licensed and made available under the terms and conditions of the BSD License
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| 7 | which accompanies this distribution. The full text of the license may be found at
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| 8 | http://opensource.org/licenses/bsd-license.php
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| 9 |
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| 10 | THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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| 11 | WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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| 12 |
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| 13 | **/
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| 14 |
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| 15 | #include <PiDxe.h>
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| 16 |
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| 17 | #include <Protocol/Cpu.h>
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| 18 | #include <Protocol/Timer.h>
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| 19 |
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| 20 | #include <Library/IoLib.h>
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| 21 | #include <Library/PcdLib.h>
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| 22 | #include <Library/BaseLib.h>
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| 23 | #include <Library/DebugLib.h>
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| 24 | #include <Library/UefiBootServicesTableLib.h>
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| 25 | #include <Library/LocalApicLib.h>
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| 26 | #include <Library/IoApicLib.h>
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| 27 |
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| 28 | #include <Register/LocalApic.h>
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| 29 | #include <Register/IoApic.h>
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| 30 | #include <Register/Hpet.h>
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| 31 |
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| 32 | ///
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| 33 | /// Define value for an invalid HPET Timer index.
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| 34 | ///
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| 35 | #define HPET_INVALID_TIMER_INDEX 0xff
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| 36 |
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| 37 | ///
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| 38 | /// Timer Architectural Protocol function prototypes.
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| 39 | ///
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| 40 |
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| 41 | /**
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| 42 | This function registers the handler NotifyFunction so it is called every time
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| 43 | the timer interrupt fires. It also passes the amount of time since the last
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| 44 | handler call to the NotifyFunction. If NotifyFunction is NULL, then the
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| 45 | handler is unregistered. If the handler is registered, then EFI_SUCCESS is
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| 46 | returned. If the CPU does not support registering a timer interrupt handler,
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| 47 | then EFI_UNSUPPORTED is returned. If an attempt is made to register a handler
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| 48 | when a handler is already registered, then EFI_ALREADY_STARTED is returned.
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| 49 | If an attempt is made to unregister a handler when a handler is not registered,
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| 50 | then EFI_INVALID_PARAMETER is returned. If an error occurs attempting to
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| 51 | register the NotifyFunction with the timer interrupt, then EFI_DEVICE_ERROR
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| 52 | is returned.
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| 53 |
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| 54 | @param This The EFI_TIMER_ARCH_PROTOCOL instance.
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| 55 | @param NotifyFunction The function to call when a timer interrupt fires.
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| 56 | This function executes at TPL_HIGH_LEVEL. The DXE
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| 57 | Core will register a handler for the timer interrupt,
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| 58 | so it can know how much time has passed. This
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| 59 | information is used to signal timer based events.
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| 60 | NULL will unregister the handler.
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| 61 |
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| 62 | @retval EFI_SUCCESS The timer handler was registered.
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| 63 | @retval EFI_UNSUPPORTED The platform does not support timer interrupts.
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| 64 | @retval EFI_ALREADY_STARTED NotifyFunction is not NULL, and a handler is already
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| 65 | registered.
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| 66 | @retval EFI_INVALID_PARAMETER NotifyFunction is NULL, and a handler was not
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| 67 | previously registered.
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| 68 | @retval EFI_DEVICE_ERROR The timer handler could not be registered.
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| 69 |
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| 70 | **/
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| 71 | EFI_STATUS
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| 72 | EFIAPI
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| 73 | TimerDriverRegisterHandler (
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| 74 | IN EFI_TIMER_ARCH_PROTOCOL *This,
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| 75 | IN EFI_TIMER_NOTIFY NotifyFunction
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| 76 | );
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| 77 |
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| 78 | /**
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| 79 | This function adjusts the period of timer interrupts to the value specified
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| 80 | by TimerPeriod. If the timer period is updated, then the selected timer
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| 81 | period is stored in EFI_TIMER.TimerPeriod, and EFI_SUCCESS is returned. If
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| 82 | the timer hardware is not programmable, then EFI_UNSUPPORTED is returned.
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| 83 | If an error occurs while attempting to update the timer period, then the
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| 84 | timer hardware will be put back in its state prior to this call, and
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| 85 | EFI_DEVICE_ERROR is returned. If TimerPeriod is 0, then the timer interrupt
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| 86 | is disabled. This is not the same as disabling the CPU's interrupts.
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| 87 | Instead, it must either turn off the timer hardware, or it must adjust the
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| 88 | interrupt controller so that a CPU interrupt is not generated when the timer
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| 89 | interrupt fires.
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| 90 |
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| 91 | @param This The EFI_TIMER_ARCH_PROTOCOL instance.
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| 92 | @param TimerPeriod The rate to program the timer interrupt in 100 nS units.
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| 93 | If the timer hardware is not programmable, then
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| 94 | EFI_UNSUPPORTED is returned. If the timer is programmable,
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| 95 | then the timer period will be rounded up to the nearest
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| 96 | timer period that is supported by the timer hardware.
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| 97 | If TimerPeriod is set to 0, then the timer interrupts
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| 98 | will be disabled.
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| 99 |
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| 100 | @retval EFI_SUCCESS The timer period was changed.
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| 101 | @retval EFI_UNSUPPORTED The platform cannot change the period of the timer interrupt.
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| 102 | @retval EFI_DEVICE_ERROR The timer period could not be changed due to a device error.
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| 103 |
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| 104 | **/
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| 105 | EFI_STATUS
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| 106 | EFIAPI
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| 107 | TimerDriverSetTimerPeriod (
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| 108 | IN EFI_TIMER_ARCH_PROTOCOL *This,
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| 109 | IN UINT64 TimerPeriod
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| 110 | );
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| 111 |
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| 112 | /**
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| 113 | This function retrieves the period of timer interrupts in 100 ns units,
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| 114 | returns that value in TimerPeriod, and returns EFI_SUCCESS. If TimerPeriod
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| 115 | is NULL, then EFI_INVALID_PARAMETER is returned. If a TimerPeriod of 0 is
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| 116 | returned, then the timer is currently disabled.
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| 117 |
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| 118 | @param This The EFI_TIMER_ARCH_PROTOCOL instance.
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| 119 | @param TimerPeriod A pointer to the timer period to retrieve in 100 ns units.
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| 120 | If 0 is returned, then the timer is currently disabled.
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| 121 |
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| 122 | @retval EFI_SUCCESS The timer period was returned in TimerPeriod.
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| 123 | @retval EFI_INVALID_PARAMETER TimerPeriod is NULL.
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| 124 |
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| 125 | **/
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| 126 | EFI_STATUS
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| 127 | EFIAPI
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| 128 | TimerDriverGetTimerPeriod (
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| 129 | IN EFI_TIMER_ARCH_PROTOCOL *This,
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| 130 | OUT UINT64 *TimerPeriod
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| 131 | );
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| 132 |
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| 133 | /**
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| 134 | This function generates a soft timer interrupt. If the platform does not support soft
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| 135 | timer interrupts, then EFI_UNSUPPORTED is returned. Otherwise, EFI_SUCCESS is returned.
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| 136 | If a handler has been registered through the EFI_TIMER_ARCH_PROTOCOL.RegisterHandler()
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| 137 | service, then a soft timer interrupt will be generated. If the timer interrupt is
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| 138 | enabled when this service is called, then the registered handler will be invoked. The
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| 139 | registered handler should not be able to distinguish a hardware-generated timer
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| 140 | interrupt from a software-generated timer interrupt.
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| 141 |
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| 142 | @param This The EFI_TIMER_ARCH_PROTOCOL instance.
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| 143 |
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| 144 | @retval EFI_SUCCESS The soft timer interrupt was generated.
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| 145 | @retval EFI_UNSUPPORTEDT The platform does not support the generation of soft
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| 146 | timer interrupts.
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| 147 |
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| 148 | **/
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| 149 | EFI_STATUS
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| 150 | EFIAPI
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| 151 | TimerDriverGenerateSoftInterrupt (
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| 152 | IN EFI_TIMER_ARCH_PROTOCOL *This
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| 153 | );
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| 154 |
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| 155 | ///
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| 156 | /// The handle onto which the Timer Architectural Protocol will be installed.
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| 157 | ///
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| 158 | EFI_HANDLE mTimerHandle = NULL;
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| 159 |
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| 160 | ///
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| 161 | /// The Timer Architectural Protocol that this driver produces.
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| 162 | ///
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| 163 | EFI_TIMER_ARCH_PROTOCOL mTimer = {
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| 164 | TimerDriverRegisterHandler,
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| 165 | TimerDriverSetTimerPeriod,
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| 166 | TimerDriverGetTimerPeriod,
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| 167 | TimerDriverGenerateSoftInterrupt
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| 168 | };
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| 169 |
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| 170 | ///
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| 171 | /// Pointer to the CPU Architectural Protocol instance.
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| 172 | ///
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| 173 | EFI_CPU_ARCH_PROTOCOL *mCpu = NULL;
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| 174 |
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| 175 | ///
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| 176 | /// The notification function to call on every timer interrupt.
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| 177 | ///
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| 178 | EFI_TIMER_NOTIFY mTimerNotifyFunction = NULL;
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| 179 |
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| 180 | ///
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| 181 | /// The current period of the HPET timer interrupt in 100 ns units.
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| 182 | ///
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| 183 | UINT64 mTimerPeriod = 0;
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| 184 |
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| 185 | ///
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 186 | /// The number of HPET timer ticks required for the current HPET rate specified by mTimerPeriod.
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 187 | ///
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 188 | UINT64 mTimerCount;
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| 189 |
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| 190 | ///
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| 191 | /// Mask used for counter and comparator calculations to adjust for a 32-bit or 64-bit counter.
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| 192 | ///
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| 193 | UINT64 mCounterMask;
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| 194 |
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| 195 | ///
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| 196 | /// The HPET main counter value from the most recent HPET timer interrupt.
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| 197 | ///
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| 198 | volatile UINT64 mPreviousMainCounter;
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| 199 |
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| 200 | volatile UINT64 mPreviousComparator;
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 201 |
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| 202 | ///
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| 203 | /// The index of the HPET timer being managed by this driver.
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| 204 | ///
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| 205 | UINTN mTimerIndex;
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| 206 |
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| 207 | ///
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| 208 | /// The I/O APIC IRQ that the HPET Timer is mapped if I/O APIC mode is used.
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| 209 | ///
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| 210 | UINT32 mTimerIrq;
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| 211 |
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| 212 | ///
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| 213 | /// Cached state of the HPET General Capabilities register managed by this driver.
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| 214 | /// Caching the state reduces the number of times the configuration register is read.
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| 215 | ///
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| 216 | HPET_GENERAL_CAPABILITIES_ID_REGISTER mHpetGeneralCapabilities;
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| 217 |
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| 218 | ///
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| 219 | /// Cached state of the HPET General Configuration register managed by this driver.
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| 220 | /// Caching the state reduces the number of times the configuration register is read.
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| 221 | ///
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| 222 | HPET_GENERAL_CONFIGURATION_REGISTER mHpetGeneralConfiguration;
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| 223 |
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| 224 | ///
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| 225 | /// Cached state of the Configuration register for the HPET Timer managed by
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| 226 | /// this driver. Caching the state reduces the number of times the configuration
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| 227 | /// register is read.
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| 228 | ///
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| 229 | HPET_TIMER_CONFIGURATION_REGISTER mTimerConfiguration;
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| 230 |
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| 231 | ///
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| 232 | /// Counts the number of HPET Timer interrupts processed by this driver.
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| 233 | /// Only required for debug.
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| 234 | ///
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| 235 | volatile UINTN mNumTicks;
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| 236 |
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| 237 | /**
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| 238 | Read a 64-bit register from the HPET
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| 239 |
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| 240 | @param Offset Specifies the offset of the HPET register to read.
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| 241 |
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| 242 | @return The 64-bit value read from the HPET register specified by Offset.
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| 243 | **/
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| 244 | UINT64
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| 245 | HpetRead (
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| 246 | IN UINTN Offset
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| 247 | )
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| 248 | {
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| 249 | return MmioRead64 (PcdGet32 (PcdHpetBaseAddress) + Offset);
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| 250 | }
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| 251 |
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| 252 | /**
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| 253 | Write a 64-bit HPET register.
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| 254 |
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| 255 | @param Offset Specifies the ofsfert of the HPET register to write.
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| 256 | @param Value Specifies the value to write to the HPET register specified by Offset.
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| 257 |
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| 258 | @return The 64-bit value written to HPET register specified by Offset.
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| 259 | **/
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| 260 | UINT64
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| 261 | HpetWrite (
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| 262 | IN UINTN Offset,
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| 263 | IN UINT64 Value
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| 264 | )
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| 265 | {
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| 266 | return MmioWrite64 (PcdGet32 (PcdHpetBaseAddress) + Offset, Value);
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| 267 | }
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| 268 |
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| 269 | /**
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| 270 | Enable or disable the main counter in the HPET Timer.
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| 271 |
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| 272 | @param Enable If TRUE, then enable the main counter in the HPET Timer.
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| 273 | If FALSE, then disable the main counter in the HPET Timer.
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| 274 | **/
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| 275 | VOID
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| 276 | HpetEnable (
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| 277 | IN BOOLEAN Enable
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| 278 | )
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| 279 | {
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| 280 | mHpetGeneralConfiguration.Bits.MainCounterEnable = Enable ? 1 : 0;
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| 281 | HpetWrite (HPET_GENERAL_CONFIGURATION_OFFSET, mHpetGeneralConfiguration.Uint64);
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| 282 | }
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| 283 |
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| 284 | /**
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| 285 | The interrupt handler for the HPET timer. This handler clears the HPET interrupt
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| 286 | and computes the amount of time that has passed since the last HPET timer interrupt.
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| 287 | If a notification function is registered, then the amount of time since the last
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| 288 | HPET interrupt is passed to that notification function in 100 ns units. The HPET
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| 289 | time is updated to generate another interrupt in the required time period.
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| 290 |
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| 291 | @param InterruptType The type of interrupt that occured.
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| 292 | @param SystemContext A pointer to the system context when the interrupt occured.
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| 293 | **/
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| 294 | VOID
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| 295 | EFIAPI
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| 296 | TimerInterruptHandler (
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| 297 | IN EFI_EXCEPTION_TYPE InterruptType,
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| 298 | IN EFI_SYSTEM_CONTEXT SystemContext
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| 299 | )
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| 300 | {
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 301 | UINT64 MainCounter;
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| 302 | UINT64 Comparator;
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 303 | UINT64 TimerPeriod;
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 304 | UINT64 Delta;
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| 305 |
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 306 | //
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| 307 | // Count number of ticks
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| 308 | //
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| 309 | DEBUG_CODE (mNumTicks++;);
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| 310 |
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| 311 | //
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| 312 | // Clear HPET timer interrupt status
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| 313 | //
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| 314 | HpetWrite (HPET_GENERAL_INTERRUPT_STATUS_OFFSET, LShiftU64 (1, mTimerIndex));
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| 315 |
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| 316 | //
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| 317 | // Local APIC EOI
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| 318 | //
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| 319 | SendApicEoi ();
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| 320 |
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| 321 | //
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 322 | // Disable HPET timer when adjusting the COMPARATOR value to prevent a missed interrupt
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 323 | //
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 324 | HpetEnable (FALSE);
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| 325 |
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| 326 | //
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| 327 | // Capture main counter value
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| 328 | //
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| 329 | MainCounter = HpetRead (HPET_MAIN_COUNTER_OFFSET);
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 330 |
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| 331 | //
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 332 | // Get the previous comparator counter
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 333 | //
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 334 | mPreviousComparator = HpetRead (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE);
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 335 |
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| 336 | //
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 337 | // Set HPET COMPARATOR to the value required for the next timer tick
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| 338 | //
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| 339 | Comparator = (mPreviousComparator + mTimerCount) & mCounterMask;
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| 340 |
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| 341 | if ((mPreviousMainCounter < MainCounter) && (mPreviousComparator > Comparator)) {
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| 342 | //
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| 343 | // When comparator overflows
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| 344 | //
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| 345 | HpetWrite (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, Comparator);
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| 346 | } else if ((mPreviousMainCounter > MainCounter) && (mPreviousComparator < Comparator)) {
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| 347 | //
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| 348 | // When main counter overflows
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| 349 | //
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| 350 | HpetWrite (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, (MainCounter + mTimerCount) & mCounterMask);
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| 351 | } else {
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| 352 | //
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| 353 | // When both main counter and comparator do not overflow or both do overflow
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| 354 | //
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| 355 | if (Comparator > MainCounter) {
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| 356 | HpetWrite (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, Comparator);
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| 357 | } else {
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| 358 | HpetWrite (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, (MainCounter + mTimerCount) & mCounterMask);
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| 359 | }
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| 360 | }
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| 361 |
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| 362 | //
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| 363 | // Enable the HPET counter once the new COMPARATOR value has been set.
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| 364 | //
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| 365 | HpetEnable (TRUE);
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| 366 |
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| 367 | //
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 368 | // Check to see if there is a registered notification function
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| 369 | //
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| 370 | if (mTimerNotifyFunction != NULL) {
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| 371 | //
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| 372 | // Compute time since last notification in 100 ns units (10 ^ -7)
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| 373 | //
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 374 | if (MainCounter > mPreviousMainCounter) {
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| 375 | //
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| 376 | // Main counter does not overflow
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| 377 | //
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| 378 | Delta = MainCounter - mPreviousMainCounter;
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| 379 | } else {
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| 380 | //
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| 381 | // Main counter overflows, first usb, then add
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| 382 | //
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| 383 | Delta = (mCounterMask - mPreviousMainCounter) + MainCounter;
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| 384 | }
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 385 | TimerPeriod = DivU64x32 (
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| 386 | MultU64x32 (
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 387 | Delta & mCounterMask,
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 388 | mHpetGeneralCapabilities.Bits.CounterClockPeriod
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| 389 | ),
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| 390 | 100000000
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| 391 | );
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 392 |
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| 393 | //
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| 394 | // Call registered notification function passing in the time since the last
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| 395 | // interrupt in 100 ns units.
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| 396 | //
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| 397 | mTimerNotifyFunction (TimerPeriod);
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| 398 | }
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li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 399 |
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| 400 | //
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| 401 | // Save main counter value
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| 402 | //
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| 403 | mPreviousMainCounter = MainCounter;
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mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 404 | }
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| 405 |
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| 406 | /**
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| 407 | This function registers the handler NotifyFunction so it is called every time
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| 408 | the timer interrupt fires. It also passes the amount of time since the last
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| 409 | handler call to the NotifyFunction. If NotifyFunction is NULL, then the
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| 410 | handler is unregistered. If the handler is registered, then EFI_SUCCESS is
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| 411 | returned. If the CPU does not support registering a timer interrupt handler,
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| 412 | then EFI_UNSUPPORTED is returned. If an attempt is made to register a handler
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| 413 | when a handler is already registered, then EFI_ALREADY_STARTED is returned.
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| 414 | If an attempt is made to unregister a handler when a handler is not registered,
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| 415 | then EFI_INVALID_PARAMETER is returned. If an error occurs attempting to
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| 416 | register the NotifyFunction with the timer interrupt, then EFI_DEVICE_ERROR
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| 417 | is returned.
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| 418 |
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| 419 | @param This The EFI_TIMER_ARCH_PROTOCOL instance.
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| 420 | @param NotifyFunction The function to call when a timer interrupt fires.
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| 421 | This function executes at TPL_HIGH_LEVEL. The DXE
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| 422 | Core will register a handler for the timer interrupt,
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| 423 | so it can know how much time has passed. This
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| 424 | information is used to signal timer based events.
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| 425 | NULL will unregister the handler.
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| 426 |
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| 427 | @retval EFI_SUCCESS The timer handler was registered.
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| 428 | @retval EFI_UNSUPPORTED The platform does not support timer interrupts.
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| 429 | @retval EFI_ALREADY_STARTED NotifyFunction is not NULL, and a handler is already
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| 430 | registered.
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| 431 | @retval EFI_INVALID_PARAMETER NotifyFunction is NULL, and a handler was not
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| 432 | previously registered.
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| 433 | @retval EFI_DEVICE_ERROR The timer handler could not be registered.
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| 434 |
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| 435 | **/
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| 436 | EFI_STATUS
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| 437 | EFIAPI
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| 438 | TimerDriverRegisterHandler (
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| 439 | IN EFI_TIMER_ARCH_PROTOCOL *This,
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| 440 | IN EFI_TIMER_NOTIFY NotifyFunction
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| 441 | )
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| 442 | {
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| 443 | //
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| 444 | // Check for invalid parameters
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| 445 | //
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| 446 | if (NotifyFunction == NULL && mTimerNotifyFunction == NULL) {
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| 447 | return EFI_INVALID_PARAMETER;
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| 448 | }
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| 449 | if (NotifyFunction != NULL && mTimerNotifyFunction != NULL) {
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| 450 | return EFI_ALREADY_STARTED;
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| 451 | }
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| 452 |
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| 453 | //
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| 454 | // Cache the registered notification function
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| 455 | //
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| 456 | mTimerNotifyFunction = NotifyFunction;
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| 457 |
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| 458 | return EFI_SUCCESS;
|
| 459 | }
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| 460 |
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| 461 | /**
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| 462 | This function adjusts the period of timer interrupts to the value specified
|
| 463 | by TimerPeriod. If the timer period is updated, then the selected timer
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| 464 | period is stored in EFI_TIMER.TimerPeriod, and EFI_SUCCESS is returned. If
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| 465 | the timer hardware is not programmable, then EFI_UNSUPPORTED is returned.
|
| 466 | If an error occurs while attempting to update the timer period, then the
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| 467 | timer hardware will be put back in its state prior to this call, and
|
| 468 | EFI_DEVICE_ERROR is returned. If TimerPeriod is 0, then the timer interrupt
|
| 469 | is disabled. This is not the same as disabling the CPU's interrupts.
|
| 470 | Instead, it must either turn off the timer hardware, or it must adjust the
|
| 471 | interrupt controller so that a CPU interrupt is not generated when the timer
|
| 472 | interrupt fires.
|
| 473 |
|
| 474 | @param This The EFI_TIMER_ARCH_PROTOCOL instance.
|
| 475 | @param TimerPeriod The rate to program the timer interrupt in 100 nS units.
|
| 476 | If the timer hardware is not programmable, then
|
| 477 | EFI_UNSUPPORTED is returned. If the timer is programmable,
|
| 478 | then the timer period will be rounded up to the nearest
|
| 479 | timer period that is supported by the timer hardware.
|
| 480 | If TimerPeriod is set to 0, then the timer interrupts
|
| 481 | will be disabled.
|
| 482 |
|
| 483 | @retval EFI_SUCCESS The timer period was changed.
|
| 484 | @retval EFI_UNSUPPORTED The platform cannot change the period of the timer interrupt.
|
| 485 | @retval EFI_DEVICE_ERROR The timer period could not be changed due to a device error.
|
| 486 |
|
| 487 | **/
|
| 488 | EFI_STATUS
|
| 489 | EFIAPI
|
| 490 | TimerDriverSetTimerPeriod (
|
| 491 | IN EFI_TIMER_ARCH_PROTOCOL *This,
|
| 492 | IN UINT64 TimerPeriod
|
| 493 | )
|
| 494 | {
|
rsun3 | 9ff904b | 2011-11-25 01:59:50 +0000 | [diff] [blame] | 495 | UINT64 MainCounter;
|
| 496 | UINT64 Delta;
|
| 497 | UINT64 CurrentComparator;
|
| 498 | HPET_TIMER_MSI_ROUTE_REGISTER HpetTimerMsiRoute;
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 499 |
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 500 | //
|
| 501 | // Disable HPET timer when adjusting the timer period
|
| 502 | //
|
| 503 | HpetEnable (FALSE);
|
| 504 |
|
| 505 | if (TimerPeriod == 0) {
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 506 | if (mTimerPeriod != 0) {
|
| 507 | //
|
| 508 | // Check if there is possibly a pending interrupt
|
| 509 | //
|
| 510 | MainCounter = HpetRead (HPET_MAIN_COUNTER_OFFSET);
|
| 511 | if (MainCounter < mPreviousMainCounter) {
|
| 512 | Delta = (mCounterMask - mPreviousMainCounter) + MainCounter;
|
| 513 | } else {
|
| 514 | Delta = MainCounter - mPreviousMainCounter;
|
| 515 | }
|
| 516 | if ((Delta & mCounterMask) >= mTimerCount) {
|
| 517 | //
|
| 518 | // Interrupt still happens after disable HPET, wait to be processed
|
| 519 | // Wait until interrupt is processed and comparator is increased
|
| 520 | //
|
| 521 | CurrentComparator = HpetRead (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE);
|
| 522 | while (CurrentComparator == mPreviousComparator) {
|
| 523 | CurrentComparator = HpetRead (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE);
|
| 524 | CpuPause();
|
| 525 | }
|
| 526 | }
|
| 527 | }
|
| 528 |
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 529 | //
|
| 530 | // If TimerPeriod is 0, then mask HPET Timer interrupts
|
| 531 | //
|
| 532 |
|
mdkinney | 0cdda8d | 2011-09-02 15:30:54 +0000 | [diff] [blame] | 533 | if (mTimerConfiguration.Bits.MsiInterruptCapablity != 0 && FeaturePcdGet (PcdHpetMsiEnable)) {
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 534 | //
|
| 535 | // Disable HPET MSI interrupt generation
|
| 536 | //
|
| 537 | mTimerConfiguration.Bits.MsiInterruptEnable = 0;
|
| 538 | } else {
|
| 539 | //
|
| 540 | // Disable I/O APIC Interrupt
|
| 541 | //
|
| 542 | IoApicEnableInterrupt (mTimerIrq, FALSE);
|
| 543 | }
|
| 544 |
|
| 545 | //
|
| 546 | // Disable HPET timer interrupt
|
| 547 | //
|
| 548 | mTimerConfiguration.Bits.InterruptEnable = 0;
|
| 549 | HpetWrite (HPET_TIMER_CONFIGURATION_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, mTimerConfiguration.Uint64);
|
| 550 | } else {
|
| 551 | //
|
| 552 | // Convert TimerPeriod to femtoseconds and divide by the number if femtoseconds
|
| 553 | // per tick of the HPET counter to determine the number of HPET counter ticks
|
| 554 | // in TimerPeriod 100 ns units.
|
| 555 | //
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 556 | mTimerCount = DivU64x32 (
|
| 557 | MultU64x32 (TimerPeriod, 100000000),
|
| 558 | mHpetGeneralCapabilities.Bits.CounterClockPeriod
|
| 559 | );
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 560 |
|
| 561 | //
|
| 562 | // Program the HPET Comparator with the number of ticks till the next interrupt
|
| 563 | //
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 564 | MainCounter = HpetRead (HPET_MAIN_COUNTER_OFFSET);
|
| 565 | if (MainCounter > mPreviousMainCounter) {
|
| 566 | Delta = MainCounter - mPreviousMainCounter;
|
| 567 | } else {
|
| 568 | Delta = (mCounterMask - mPreviousMainCounter) + MainCounter;
|
| 569 | }
|
| 570 | if ((Delta & mCounterMask) >= mTimerCount) {
|
| 571 | HpetWrite (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, (MainCounter + 1) & mCounterMask);
|
| 572 | } else {
|
| 573 | HpetWrite (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, (mPreviousMainCounter + mTimerCount) & mCounterMask);
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 574 | }
|
| 575 |
|
| 576 | //
|
| 577 | // Enable HPET Timer interrupt generation
|
| 578 | //
|
mdkinney | 0cdda8d | 2011-09-02 15:30:54 +0000 | [diff] [blame] | 579 | if (mTimerConfiguration.Bits.MsiInterruptCapablity != 0 && FeaturePcdGet (PcdHpetMsiEnable)) {
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 580 | //
|
rsun3 | 9ff904b | 2011-11-25 01:59:50 +0000 | [diff] [blame] | 581 | // Program MSI Address and MSI Data values in the selected HPET Timer
|
| 582 | // Program HPET register with APIC ID of current BSP in case BSP has been switched
|
| 583 | //
|
| 584 | HpetTimerMsiRoute.Bits.Address = GetApicMsiAddress ();
|
| 585 | HpetTimerMsiRoute.Bits.Value = (UINT32)GetApicMsiValue (PcdGet8 (PcdHpetLocalApicVector), LOCAL_APIC_DELIVERY_MODE_LOWEST_PRIORITY, FALSE, FALSE);
|
| 586 | HpetWrite (HPET_TIMER_MSI_ROUTE_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, HpetTimerMsiRoute.Uint64);
|
| 587 | //
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 588 | // Enable HPET MSI Interrupt
|
| 589 | //
|
| 590 | mTimerConfiguration.Bits.MsiInterruptEnable = 1;
|
| 591 | } else {
|
| 592 | //
|
| 593 | // Enable timer interrupt through I/O APIC
|
rsun3 | 9ff904b | 2011-11-25 01:59:50 +0000 | [diff] [blame] | 594 | // Program IOAPIC register with APIC ID of current BSP in case BSP has been switched
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 595 | //
|
rsun3 | 9ff904b | 2011-11-25 01:59:50 +0000 | [diff] [blame] | 596 | IoApicConfigureInterrupt (mTimerIrq, PcdGet8 (PcdHpetLocalApicVector), IO_APIC_DELIVERY_MODE_LOWEST_PRIORITY, TRUE, FALSE);
|
Tycho Nightingale | 97be280 | 2014-06-20 07:18:08 +0000 | [diff] [blame] | 597 | IoApicEnableInterrupt (mTimerIrq, TRUE);
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 598 | }
|
| 599 |
|
| 600 | //
|
| 601 | // Enable HPET Interrupt Generation
|
| 602 | //
|
| 603 | mTimerConfiguration.Bits.InterruptEnable = 1;
|
| 604 | HpetWrite (HPET_TIMER_CONFIGURATION_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, mTimerConfiguration.Uint64);
|
| 605 | }
|
| 606 |
|
| 607 | //
|
| 608 | // Save the new timer period
|
| 609 | //
|
| 610 | mTimerPeriod = TimerPeriod;
|
| 611 |
|
| 612 | //
|
| 613 | // Enable the HPET counter once new timer period has been established
|
| 614 | // The HPET counter should run even if the HPET Timer interrupts are
|
| 615 | // disabled. This is used to account for time passed while the interrupt
|
| 616 | // is disabled.
|
| 617 | //
|
| 618 | HpetEnable (TRUE);
|
| 619 |
|
| 620 | return EFI_SUCCESS;
|
| 621 | }
|
| 622 |
|
| 623 | /**
|
| 624 | This function retrieves the period of timer interrupts in 100 ns units,
|
| 625 | returns that value in TimerPeriod, and returns EFI_SUCCESS. If TimerPeriod
|
| 626 | is NULL, then EFI_INVALID_PARAMETER is returned. If a TimerPeriod of 0 is
|
| 627 | returned, then the timer is currently disabled.
|
| 628 |
|
| 629 | @param This The EFI_TIMER_ARCH_PROTOCOL instance.
|
| 630 | @param TimerPeriod A pointer to the timer period to retrieve in 100 ns units.
|
| 631 | If 0 is returned, then the timer is currently disabled.
|
| 632 |
|
| 633 | @retval EFI_SUCCESS The timer period was returned in TimerPeriod.
|
| 634 | @retval EFI_INVALID_PARAMETER TimerPeriod is NULL.
|
| 635 |
|
| 636 | **/
|
| 637 | EFI_STATUS
|
| 638 | EFIAPI
|
| 639 | TimerDriverGetTimerPeriod (
|
| 640 | IN EFI_TIMER_ARCH_PROTOCOL *This,
|
| 641 | OUT UINT64 *TimerPeriod
|
| 642 | )
|
| 643 | {
|
| 644 | if (TimerPeriod == NULL) {
|
| 645 | return EFI_INVALID_PARAMETER;
|
| 646 | }
|
| 647 |
|
| 648 | *TimerPeriod = mTimerPeriod;
|
| 649 |
|
| 650 | return EFI_SUCCESS;
|
| 651 | }
|
| 652 |
|
| 653 | /**
|
| 654 | This function generates a soft timer interrupt. If the platform does not support soft
|
| 655 | timer interrupts, then EFI_UNSUPPORTED is returned. Otherwise, EFI_SUCCESS is returned.
|
| 656 | If a handler has been registered through the EFI_TIMER_ARCH_PROTOCOL.RegisterHandler()
|
| 657 | service, then a soft timer interrupt will be generated. If the timer interrupt is
|
| 658 | enabled when this service is called, then the registered handler will be invoked. The
|
| 659 | registered handler should not be able to distinguish a hardware-generated timer
|
| 660 | interrupt from a software-generated timer interrupt.
|
| 661 |
|
| 662 | @param This The EFI_TIMER_ARCH_PROTOCOL instance.
|
| 663 |
|
| 664 | @retval EFI_SUCCESS The soft timer interrupt was generated.
|
| 665 | @retval EFI_UNSUPPORTEDT The platform does not support the generation of soft
|
| 666 | timer interrupts.
|
| 667 |
|
| 668 | **/
|
| 669 | EFI_STATUS
|
| 670 | EFIAPI
|
| 671 | TimerDriverGenerateSoftInterrupt (
|
| 672 | IN EFI_TIMER_ARCH_PROTOCOL *This
|
| 673 | )
|
| 674 | {
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 675 | UINT64 MainCounter;
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 676 | EFI_TPL Tpl;
|
| 677 | UINT64 TimerPeriod;
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 678 | UINT64 Delta;
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 679 |
|
| 680 | //
|
| 681 | // Disable interrupts
|
| 682 | //
|
| 683 | Tpl = gBS->RaiseTPL (TPL_HIGH_LEVEL);
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 684 |
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 685 | //
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 686 | // Capture main counter value
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 687 | //
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 688 | MainCounter = HpetRead (HPET_MAIN_COUNTER_OFFSET);
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 689 |
|
| 690 | //
|
| 691 | // Check to see if there is a registered notification function
|
| 692 | //
|
| 693 | if (mTimerNotifyFunction != NULL) {
|
| 694 | //
|
| 695 | // Compute time since last interrupt in 100 ns units (10 ^ -7)
|
| 696 | //
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 697 | if (MainCounter > mPreviousMainCounter) {
|
| 698 | //
|
| 699 | // Main counter does not overflow
|
| 700 | //
|
| 701 | Delta = MainCounter - mPreviousMainCounter;
|
| 702 | } else {
|
| 703 | //
|
| 704 | // Main counter overflows, first usb, then add
|
| 705 | //
|
| 706 | Delta = (mCounterMask - mPreviousMainCounter) + MainCounter;
|
| 707 | }
|
| 708 |
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 709 | TimerPeriod = DivU64x32 (
|
| 710 | MultU64x32 (
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 711 | Delta & mCounterMask,
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 712 | mHpetGeneralCapabilities.Bits.CounterClockPeriod
|
| 713 | ),
|
| 714 | 100000000
|
| 715 | );
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 716 |
|
| 717 | //
|
| 718 | // Call registered notification function passing in the time since the last
|
| 719 | // interrupt in 100 ns units.
|
| 720 | //
|
| 721 | mTimerNotifyFunction (TimerPeriod);
|
| 722 | }
|
| 723 |
|
| 724 | //
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 725 | // Save main counter value
|
| 726 | //
|
| 727 | mPreviousMainCounter = MainCounter;
|
| 728 |
|
| 729 | //
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 730 | // Restore interrupts
|
| 731 | //
|
| 732 | gBS->RestoreTPL (Tpl);
|
| 733 |
|
| 734 | return EFI_SUCCESS;
|
| 735 | }
|
| 736 |
|
| 737 | /**
|
| 738 | Initialize the Timer Architectural Protocol driver
|
| 739 |
|
| 740 | @param ImageHandle ImageHandle of the loaded driver
|
| 741 | @param SystemTable Pointer to the System Table
|
| 742 |
|
| 743 | @retval EFI_SUCCESS Timer Architectural Protocol created
|
| 744 | @retval EFI_OUT_OF_RESOURCES Not enough resources available to initialize driver.
|
| 745 | @retval EFI_DEVICE_ERROR A device error occured attempting to initialize the driver.
|
| 746 |
|
| 747 | **/
|
| 748 | EFI_STATUS
|
| 749 | EFIAPI
|
| 750 | TimerDriverInitialize (
|
| 751 | IN EFI_HANDLE ImageHandle,
|
| 752 | IN EFI_SYSTEM_TABLE *SystemTable
|
| 753 | )
|
| 754 | {
|
| 755 | EFI_STATUS Status;
|
| 756 | UINTN TimerIndex;
|
| 757 | UINTN MsiTimerIndex;
|
| 758 | HPET_TIMER_MSI_ROUTE_REGISTER HpetTimerMsiRoute;
|
| 759 |
|
| 760 | DEBUG ((DEBUG_INFO, "Init HPET Timer Driver\n"));
|
| 761 |
|
| 762 | //
|
| 763 | // Make sure the Timer Architectural Protocol is not already installed in the system
|
| 764 | //
|
| 765 | ASSERT_PROTOCOL_ALREADY_INSTALLED (NULL, &gEfiTimerArchProtocolGuid);
|
| 766 |
|
| 767 | //
|
| 768 | // Find the CPU architectural protocol.
|
| 769 | //
|
| 770 | Status = gBS->LocateProtocol (&gEfiCpuArchProtocolGuid, NULL, (VOID **) &mCpu);
|
| 771 | ASSERT_EFI_ERROR (Status);
|
| 772 |
|
| 773 | //
|
| 774 | // Retrieve HPET Capabilities and Configuration Information
|
| 775 | //
|
| 776 | mHpetGeneralCapabilities.Uint64 = HpetRead (HPET_GENERAL_CAPABILITIES_ID_OFFSET);
|
| 777 | mHpetGeneralConfiguration.Uint64 = HpetRead (HPET_GENERAL_CONFIGURATION_OFFSET);
|
| 778 |
|
| 779 | //
|
| 780 | // If Revision is not valid, then ASSERT() and unload the driver because the HPET
|
| 781 | // device is not present.
|
| 782 | //
|
| 783 | ASSERT (mHpetGeneralCapabilities.Uint64 != 0);
|
| 784 | ASSERT (mHpetGeneralCapabilities.Uint64 != 0xFFFFFFFFFFFFFFFFULL);
|
| 785 | if (mHpetGeneralCapabilities.Uint64 == 0 || mHpetGeneralCapabilities.Uint64 == 0xFFFFFFFFFFFFFFFFULL) {
|
| 786 | DEBUG ((DEBUG_ERROR, "HPET device is not present. Unload HPET driver.\n"));
|
| 787 | return EFI_DEVICE_ERROR;
|
| 788 | }
|
| 789 |
|
| 790 | //
|
| 791 | // Force the HPET timer to be disabled while setting everything up
|
| 792 | //
|
| 793 | HpetEnable (FALSE);
|
| 794 |
|
| 795 | //
|
| 796 | // Dump HPET Configuration Information
|
| 797 | //
|
| 798 | DEBUG_CODE (
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 799 | DEBUG ((DEBUG_INFO, "HPET Base Address = 0x%08x\n", PcdGet32 (PcdHpetBaseAddress)));
|
| 800 | DEBUG ((DEBUG_INFO, " HPET_GENERAL_CAPABILITIES_ID = 0x%016lx\n", mHpetGeneralCapabilities));
|
| 801 | DEBUG ((DEBUG_INFO, " HPET_GENERAL_CONFIGURATION = 0x%016lx\n", mHpetGeneralConfiguration.Uint64));
|
| 802 | DEBUG ((DEBUG_INFO, " HPET_GENERAL_INTERRUPT_STATUS = 0x%016lx\n", HpetRead (HPET_GENERAL_INTERRUPT_STATUS_OFFSET)));
|
| 803 | DEBUG ((DEBUG_INFO, " HPET_MAIN_COUNTER = 0x%016lx\n", HpetRead (HPET_MAIN_COUNTER_OFFSET)));
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 804 | DEBUG ((DEBUG_INFO, " HPET Main Counter Period = %d (fs)\n", mHpetGeneralCapabilities.Bits.CounterClockPeriod));
|
| 805 | for (TimerIndex = 0; TimerIndex <= mHpetGeneralCapabilities.Bits.NumberOfTimers; TimerIndex++) {
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 806 | DEBUG ((DEBUG_INFO, " HPET_TIMER%d_CONFIGURATION = 0x%016lx\n", TimerIndex, HpetRead (HPET_TIMER_CONFIGURATION_OFFSET + TimerIndex * HPET_TIMER_STRIDE)));
|
| 807 | DEBUG ((DEBUG_INFO, " HPET_TIMER%d_COMPARATOR = 0x%016lx\n", TimerIndex, HpetRead (HPET_TIMER_COMPARATOR_OFFSET + TimerIndex * HPET_TIMER_STRIDE)));
|
| 808 | DEBUG ((DEBUG_INFO, " HPET_TIMER%d_MSI_ROUTE = 0x%016lx\n", TimerIndex, HpetRead (HPET_TIMER_MSI_ROUTE_OFFSET + TimerIndex * HPET_TIMER_STRIDE)));
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 809 | }
|
| 810 | );
|
| 811 |
|
| 812 | //
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 813 | // Capture the current HPET main counter value.
|
| 814 | //
|
| 815 | mPreviousMainCounter = HpetRead (HPET_MAIN_COUNTER_OFFSET);
|
| 816 |
|
| 817 | //
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 818 | // Determine the interrupt mode to use for the HPET Timer.
|
| 819 | // Look for MSI first, then unused PIC mode interrupt, then I/O APIC mode interrupt
|
| 820 | //
|
| 821 | MsiTimerIndex = HPET_INVALID_TIMER_INDEX;
|
| 822 | mTimerIndex = HPET_INVALID_TIMER_INDEX;
|
| 823 | for (TimerIndex = 0; TimerIndex <= mHpetGeneralCapabilities.Bits.NumberOfTimers; TimerIndex++) {
|
| 824 | //
|
| 825 | // Read the HPET Timer Capabilities and Configuration register
|
| 826 | //
|
| 827 | mTimerConfiguration.Uint64 = HpetRead (HPET_TIMER_CONFIGURATION_OFFSET + TimerIndex * HPET_TIMER_STRIDE);
|
| 828 |
|
| 829 | //
|
| 830 | // Check to see if this HPET Timer supports MSI
|
| 831 | //
|
| 832 | if (mTimerConfiguration.Bits.MsiInterruptCapablity != 0) {
|
| 833 | //
|
| 834 | // Save the index of the first HPET Timer that supports MSI interrupts
|
| 835 | //
|
| 836 | if (MsiTimerIndex == HPET_INVALID_TIMER_INDEX) {
|
| 837 | MsiTimerIndex = TimerIndex;
|
| 838 | }
|
| 839 | }
|
| 840 |
|
| 841 | //
|
| 842 | // Check to see if this HPET Timer supports I/O APIC interrupts
|
| 843 | //
|
| 844 | if (mTimerConfiguration.Bits.InterruptRouteCapability != 0) {
|
| 845 | //
|
| 846 | // Save the index of the first HPET Timer that supports I/O APIC interrupts
|
| 847 | //
|
| 848 | if (mTimerIndex == HPET_INVALID_TIMER_INDEX) {
|
| 849 | mTimerIndex = TimerIndex;
|
| 850 | mTimerIrq = (UINT32)LowBitSet32 (mTimerConfiguration.Bits.InterruptRouteCapability);
|
| 851 | }
|
| 852 | }
|
| 853 | }
|
| 854 |
|
| 855 | if (FeaturePcdGet (PcdHpetMsiEnable) && MsiTimerIndex != HPET_INVALID_TIMER_INDEX) {
|
| 856 | //
|
| 857 | // Use MSI interrupt if supported
|
| 858 | //
|
| 859 | mTimerIndex = MsiTimerIndex;
|
| 860 |
|
| 861 | //
|
| 862 | // Program MSI Address and MSI Data values in the selected HPET Timer
|
| 863 | //
|
| 864 | HpetTimerMsiRoute.Bits.Address = GetApicMsiAddress ();
|
| 865 | HpetTimerMsiRoute.Bits.Value = (UINT32)GetApicMsiValue (PcdGet8 (PcdHpetLocalApicVector), LOCAL_APIC_DELIVERY_MODE_LOWEST_PRIORITY, FALSE, FALSE);
|
| 866 | HpetWrite (HPET_TIMER_MSI_ROUTE_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, HpetTimerMsiRoute.Uint64);
|
| 867 |
|
| 868 | //
|
| 869 | // Read the HPET Timer Capabilities and Configuration register and initialize for MSI mode
|
| 870 | // Clear LevelTriggeredInterrupt to use edge triggered interrupts when in MSI mode
|
| 871 | //
|
| 872 | mTimerConfiguration.Uint64 = HpetRead (HPET_TIMER_CONFIGURATION_OFFSET + mTimerIndex * HPET_TIMER_STRIDE);
|
| 873 | mTimerConfiguration.Bits.LevelTriggeredInterrupt = 0;
|
| 874 | } else {
|
| 875 | //
|
| 876 | // If no HPET timers support MSI or I/O APIC modes, then ASSERT() and unload the driver.
|
| 877 | //
|
| 878 | ASSERT (mTimerIndex != HPET_INVALID_TIMER_INDEX);
|
| 879 | if (mTimerIndex == HPET_INVALID_TIMER_INDEX) {
|
| 880 | DEBUG ((DEBUG_ERROR, "No HPET timers support MSI or I/O APIC mode. Unload HPET driver.\n"));
|
| 881 | return EFI_DEVICE_ERROR;
|
| 882 | }
|
| 883 |
|
| 884 | //
|
| 885 | // Initialize I/O APIC entry for HPET Timer Interrupt
|
| 886 | // Fixed Delivery Mode, Level Triggered, Asserted Low
|
| 887 | //
|
| 888 | IoApicConfigureInterrupt (mTimerIrq, PcdGet8 (PcdHpetLocalApicVector), IO_APIC_DELIVERY_MODE_LOWEST_PRIORITY, TRUE, FALSE);
|
| 889 |
|
| 890 | //
|
| 891 | // Read the HPET Timer Capabilities and Configuration register and initialize for I/O APIC mode
|
| 892 | // Clear MsiInterruptCapability to force rest of driver to use I/O APIC mode
|
| 893 | // Set LevelTriggeredInterrupt to use level triggered interrupts when in I/O APIC mode
|
| 894 | // Set InterruptRoute field based in mTimerIrq
|
| 895 | //
|
| 896 | mTimerConfiguration.Uint64 = HpetRead (HPET_TIMER_CONFIGURATION_OFFSET + mTimerIndex * HPET_TIMER_STRIDE);
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 897 | mTimerConfiguration.Bits.LevelTriggeredInterrupt = 1;
|
| 898 | mTimerConfiguration.Bits.InterruptRoute = mTimerIrq;
|
| 899 | }
|
| 900 |
|
| 901 | //
|
| 902 | // Configure the selected HPET Timer with settings common to both MSI mode and I/O APIC mode
|
| 903 | // Clear InterruptEnable to keep interrupts disabled until full init is complete
|
| 904 | // Clear PeriodicInterruptEnable to use one-shot mode
|
| 905 | // Configure as a 32-bit counter
|
| 906 | //
|
| 907 | mTimerConfiguration.Bits.InterruptEnable = 0;
|
| 908 | mTimerConfiguration.Bits.PeriodicInterruptEnable = 0;
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 909 | mTimerConfiguration.Bits.CounterSizeEnable = 1;
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 910 | HpetWrite (HPET_TIMER_CONFIGURATION_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, mTimerConfiguration.Uint64);
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 911 |
|
| 912 | //
|
| 913 | // Read the HPET Timer Capabilities and Configuration register back again.
|
| 914 | // CounterSizeEnable will be read back as a 0 if it is a 32-bit only timer
|
| 915 | //
|
| 916 | mTimerConfiguration.Uint64 = HpetRead (HPET_TIMER_CONFIGURATION_OFFSET + mTimerIndex * HPET_TIMER_STRIDE);
|
| 917 | if ((mTimerConfiguration.Bits.CounterSizeEnable == 1) && (sizeof (UINTN) == sizeof (UINT64))) {
|
| 918 | DEBUG ((DEBUG_INFO, "Choose 64-bit HPET timer.\n"));
|
| 919 | //
|
| 920 | // 64-bit BIOS can use 64-bit HPET timer
|
| 921 | //
|
| 922 | mCounterMask = 0xffffffffffffffffULL;
|
| 923 | //
|
| 924 | // Set timer back to 64-bit
|
| 925 | //
|
| 926 | mTimerConfiguration.Bits.CounterSizeEnable = 0;
|
| 927 | HpetWrite (HPET_TIMER_CONFIGURATION_OFFSET + mTimerIndex * HPET_TIMER_STRIDE, mTimerConfiguration.Uint64);
|
| 928 | } else {
|
| 929 | DEBUG ((DEBUG_INFO, "Choose 32-bit HPET timer.\n"));
|
| 930 | mCounterMask = 0x00000000ffffffffULL;
|
| 931 | }
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 932 |
|
| 933 | //
|
| 934 | // Install interrupt handler for selected HPET Timer
|
| 935 | //
|
| 936 | Status = mCpu->RegisterInterruptHandler (mCpu, PcdGet8 (PcdHpetLocalApicVector), TimerInterruptHandler);
|
| 937 | ASSERT_EFI_ERROR (Status);
|
| 938 | if (EFI_ERROR (Status)) {
|
| 939 | DEBUG ((DEBUG_ERROR, "Unable to register HPET interrupt with CPU Arch Protocol. Unload HPET driver.\n"));
|
| 940 | return EFI_DEVICE_ERROR;
|
| 941 | }
|
| 942 |
|
| 943 | //
|
| 944 | // Force the HPET Timer to be enabled at its default period
|
| 945 | //
|
| 946 | Status = TimerDriverSetTimerPeriod (&mTimer, PcdGet64 (PcdHpetDefaultTimerPeriod));
|
| 947 | ASSERT_EFI_ERROR (Status);
|
| 948 | if (EFI_ERROR (Status)) {
|
| 949 | DEBUG ((DEBUG_ERROR, "Unable to set HPET default timer rate. Unload HPET driver.\n"));
|
| 950 | return EFI_DEVICE_ERROR;
|
| 951 | }
|
| 952 |
|
| 953 | //
|
| 954 | // Show state of enabled HPET timer
|
| 955 | //
|
| 956 | DEBUG_CODE (
|
mdkinney | 0cdda8d | 2011-09-02 15:30:54 +0000 | [diff] [blame] | 957 | if (mTimerConfiguration.Bits.MsiInterruptCapablity != 0 && FeaturePcdGet (PcdHpetMsiEnable)) {
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 958 | DEBUG ((DEBUG_INFO, "HPET Interrupt Mode MSI\n"));
|
| 959 | } else {
|
| 960 | DEBUG ((DEBUG_INFO, "HPET Interrupt Mode I/O APIC\n"));
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 961 | DEBUG ((DEBUG_INFO, "HPET I/O APIC IRQ = 0x%02x\n", mTimerIrq));
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 962 | }
|
li-elvin | 22fde64 | 2011-11-15 07:58:00 +0000 | [diff] [blame] | 963 | DEBUG ((DEBUG_INFO, "HPET Interrupt Vector = 0x%02x\n", PcdGet8 (PcdHpetLocalApicVector)));
|
| 964 | DEBUG ((DEBUG_INFO, "HPET Counter Mask = 0x%016lx\n", mCounterMask));
|
| 965 | DEBUG ((DEBUG_INFO, "HPET Timer Period = %d\n", mTimerPeriod));
|
| 966 | DEBUG ((DEBUG_INFO, "HPET Timer Count = 0x%016lx\n", mTimerCount));
|
| 967 | DEBUG ((DEBUG_INFO, "HPET_TIMER%d_CONFIGURATION = 0x%016lx\n", mTimerIndex, HpetRead (HPET_TIMER_CONFIGURATION_OFFSET + mTimerIndex * HPET_TIMER_STRIDE)));
|
| 968 | DEBUG ((DEBUG_INFO, "HPET_TIMER%d_COMPARATOR = 0x%016lx\n", mTimerIndex, HpetRead (HPET_TIMER_COMPARATOR_OFFSET + mTimerIndex * HPET_TIMER_STRIDE)));
|
| 969 | DEBUG ((DEBUG_INFO, "HPET_TIMER%d_MSI_ROUTE = 0x%016lx\n", mTimerIndex, HpetRead (HPET_TIMER_MSI_ROUTE_OFFSET + mTimerIndex * HPET_TIMER_STRIDE)));
|
mdkinney | 986d1df | 2011-09-02 02:43:51 +0000 | [diff] [blame] | 970 |
|
| 971 | //
|
| 972 | // Wait for a few timer interrupts to fire before continuing
|
| 973 | //
|
| 974 | while (mNumTicks < 10);
|
| 975 | );
|
| 976 |
|
| 977 | //
|
| 978 | // Install the Timer Architectural Protocol onto a new handle
|
| 979 | //
|
| 980 | Status = gBS->InstallMultipleProtocolInterfaces (
|
| 981 | &mTimerHandle,
|
| 982 | &gEfiTimerArchProtocolGuid, &mTimer,
|
| 983 | NULL
|
| 984 | );
|
| 985 | ASSERT_EFI_ERROR (Status);
|
| 986 |
|
| 987 | return Status;
|
| 988 | }
|