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USBDevice/TARGET_Silicon_Labs/src/em_usbtimer.c
- Committer:
- mbed_official
- Date:
- 2015-08-13
- Revision:
- 59:2af474687369
File content as of revision 59:2af474687369:
/***************************************************************************//**
* @file em_usbtimer.c
* @brief USB protocol stack library, timer API.
* @version 3.20.14
*******************************************************************************
* @section License
* <b>(C) Copyright 2014 Silicon Labs, http://www.silabs.com</b>
*******************************************************************************
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
#include "em_device.h"
#if defined( USB_PRESENT ) && ( USB_COUNT == 1 )
#include "em_usb.h"
#if defined( USB_DEVICE ) || defined( USB_HOST )
#include "em_cmu.h"
#include "em_timer.h"
#include "em_usbtypes.h"
#include "em_usbhal.h"
#include "device_peripherals.h"
/*
* Use one HW timer to serve n software milisecond timers.
* A timer is, when running, in a linked list of timers.
* A given timers timeout period is the acculmulated timeout
* of all timers preceeding it in the queue.
* This makes timer start (linked list insertion) computing intensive,
* but the checking of the queue at each tick very effective.
* ______ ______ ______
* | | --->| | --->| |
* head --> | | | | | | | |
* |______|--- |______|--- |______|---/ NULL
*/
/** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */
#ifndef USB_TIMER
#error HW platform must define the timer to use for USB
#endif
#if ( USB_TIMER == USB_TIMER0 ) && ( TIMER_COUNT >= 1 )
#define TIMER TIMER0
#define TIMER_CLK cmuClock_TIMER0
#define TIMER_IRQ TIMER0_IRQn
#define TIMER_IRQHandler TIMER0_IRQHandler
#elif ( USB_TIMER == USB_TIMER1 ) && ( TIMER_COUNT >= 2 )
#define TIMER TIMER1
#define TIMER_CLK cmuClock_TIMER1
#define TIMER_IRQ TIMER1_IRQn
#define TIMER_IRQHandler TIMER1_IRQHandler
#elif ( USB_TIMER == USB_TIMER2 ) && ( TIMER_COUNT >= 3 )
#define TIMER TIMER2
#define TIMER_CLK cmuClock_TIMER2
#define TIMER_IRQ TIMER2_IRQn
#define TIMER_IRQHandler TIMER2_IRQHandler
#elif ( USB_TIMER == USB_TIMER3 ) && ( TIMER_COUNT == 4 )
#define TIMER TIMER3
#define TIMER_CLK cmuClock_TIMER3
#define TIMER_IRQ TIMER3_IRQn
#define TIMER_IRQHandler TIMER3_IRQHandler
#else
#error "Illegal USB TIMER definition"
#endif
typedef struct _timer
{
uint32_t timeout; /* Delta value relative to prev. timer */
struct _timer *next;
USBTIMER_Callback_TypeDef callback;
bool running;
} USBTIMER_Timer_TypeDef;
#if ( NUM_QTIMERS > 0 )
static USBTIMER_Timer_TypeDef timers[ NUM_QTIMERS ];
static USBTIMER_Timer_TypeDef *head = NULL;
#endif
static uint32_t ticksPrMs, ticksPr1us, ticksPr10us, ticksPr100us;
#if ( NUM_QTIMERS > 0 )
static void TimerTick( void );
void TIMER_IRQHandler( void )
{
uint32_t flags;
flags = TIMER_IntGet( TIMER );
if ( flags & TIMER_IF_CC0 )
{
TIMER_IntClear( TIMER, TIMER_IFC_CC0 );
TIMER_CompareSet( TIMER, 0, TIMER_CaptureGet( TIMER, 0 ) + ticksPrMs );
TimerTick();
}
}
#endif /* ( NUM_QTIMERS > 0 ) */
static void DelayTicks( uint16_t ticks )
{
uint16_t startTime;
volatile uint16_t now;
if ( ticks )
{
startTime = TIMER_CounterGet( TIMER );
do
{
now = TIMER_CounterGet(TIMER);
} while ( (uint16_t)( now - startTime ) < ticks );
}
}
/** @endcond */
/** @addtogroup USB_COMMON
* @{*/
/***************************************************************************//**
* @brief
* Active wait millisecond delay function. Can also be used inside
* interrupt handlers.
*
* @param[in] msec
* Number of milliseconds to wait.
******************************************************************************/
void USBTIMER_DelayMs( uint32_t msec )
{
uint64_t totalTicks;
totalTicks = (uint64_t)ticksPrMs * msec;
while ( totalTicks > 20000 )
{
DelayTicks( 20000 );
totalTicks -= 20000;
}
DelayTicks( (uint16_t)totalTicks );
}
/***************************************************************************//**
* @brief
* Active wait microsecond delay function. Can also be used inside
* interrupt handlers.
*
* @param[in] usec
* Number of microseconds to wait.
******************************************************************************/
void USBTIMER_DelayUs( uint32_t usec )
{
uint64_t totalTicks;
totalTicks = (uint64_t)ticksPr1us * usec;
if ( totalTicks == 0 )
{
usec /= 10;
totalTicks = (uint64_t)ticksPr10us * usec;
if ( totalTicks == 0 )
{
usec /= 10;
totalTicks = (uint64_t)ticksPr100us * usec;
}
}
while ( totalTicks > 60000 )
{
DelayTicks( 60000 );
totalTicks -= 60000;
}
DelayTicks( (uint16_t)totalTicks );
}
/***************************************************************************//**
* @brief
* Activate the hardware timer used to pace the 1 millisecond timer system.
*
* @details
* Call this function whenever the HFPERCLK frequency is changed.
* This function is initially called by HOST and DEVICE stack xxxx_Init()
* functions.
******************************************************************************/
void USBTIMER_Init( void )
{
uint32_t freq;
TIMER_Init_TypeDef timerInit = TIMER_INIT_DEFAULT;
TIMER_InitCC_TypeDef timerCCInit = TIMER_INITCC_DEFAULT;
freq = CMU_ClockFreqGet( cmuClock_HFPER );
ticksPrMs = ( freq + 500 ) / 1000;
ticksPr1us = ( freq + 500000 ) / 1000000;
ticksPr10us = ( freq + 50000 ) / 100000;
ticksPr100us = ( freq + 5000 ) / 10000;
timerCCInit.mode = timerCCModeCompare;
CMU_ClockEnable( TIMER_CLK, true );
TIMER_TopSet( TIMER, 0xFFFF );
TIMER_InitCC( TIMER, 0, &timerCCInit );
TIMER_Init( TIMER, &timerInit );
#if ( NUM_QTIMERS > 0 )
TIMER_IntClear( TIMER, 0xFFFFFFFF );
TIMER_IntEnable( TIMER, TIMER_IEN_CC0 );
TIMER_CompareSet( TIMER, 0, TIMER_CounterGet( TIMER ) + ticksPrMs );
NVIC_ClearPendingIRQ( TIMER_IRQ );
NVIC_EnableIRQ( TIMER_IRQ );
#endif /* ( NUM_QTIMERS > 0 ) */
}
#if ( NUM_QTIMERS > 0 ) || defined( DOXY_DOC_ONLY )
/***************************************************************************//**
* @brief
* Start a timer.
*
* @details
* If the timer is already running, it will be restarted with new timeout.
*
* @param[in] id
* Timer id (0..).
*
* @param[in] timeout
* Number of milliseconds before timer will elapse.
*
* @param[in] callback
* Function to be called on timer elapse, ref. @ref USBTIMER_Callback_TypeDef.
******************************************************************************/
void USBTIMER_Start( uint32_t id, uint32_t timeout,
USBTIMER_Callback_TypeDef callback )
{
uint32_t accumulated;
USBTIMER_Timer_TypeDef *this, **last;
INT_Disable();
if ( timers[ id ].running )
{
USBTIMER_Stop( id );
}
if ( timeout == 0 )
{
callback();
INT_Enable();
return;
}
timers[ id ].running = true;
timers[ id ].callback = callback;
timers[ id ].next = NULL;
if ( !head ) /* Queue empty ? */
{
timers[ id ].timeout = timeout;
head = &timers[ id ];
}
else
{
this = head;
last = &head;
accumulated = 0;
/* Do a sorted insert */
while ( this )
{
if ( timeout < accumulated + this->timeout ) /* Insert before "this" ? */
{
timers[ id ].timeout = timeout - accumulated;
timers[ id ].next = this;
*last = &timers[ id ];
this->timeout -= timers[ id ].timeout; /* Adjust timeout */
break;
}
else if ( this->next == NULL ) /* At end of queue ? */
{
timers[ id ].timeout = timeout - accumulated - this->timeout;
this->next = &timers[ id ];
break;
}
accumulated += this->timeout;
last = &this->next;
this = this->next;
}
}
INT_Enable();
}
/***************************************************************************//**
* @brief
* Stop a timer.
*
* @param[in] id
* Timer id (0..).
******************************************************************************/
void USBTIMER_Stop( uint32_t id )
{
USBTIMER_Timer_TypeDef *this, **last;
INT_Disable();
if ( head ) /* Queue empty ? */
{
this = head;
last = &head;
timers[ id ].running = false;
while ( this )
{
if ( this == &timers[ id ] ) /* Correct timer ? */
{
if ( this->next )
{
this->next->timeout += timers[ id ].timeout; /* Adjust timeout */
}
*last = this->next;
break;
}
last = &this->next;
this = this->next;
}
}
INT_Enable();
}
#endif /* ( NUM_QTIMERS > 0 ) */
/** @} (end addtogroup USB_COMMON) */
#if ( NUM_QTIMERS > 0 )
/** @cond DO_NOT_INCLUDE_WITH_DOXYGEN */
static void TimerTick( void )
{
USBTIMER_Callback_TypeDef cb;
INT_Disable();
if ( head )
{
head->timeout--;
while ( head )
{
if ( head->timeout == 0 )
{
cb = head->callback;
head->running = false;
head = head->next;
/* The callback may place new items in the queue !!! */
if ( cb )
{
(cb)();
}
continue; /* There might be more than one timeout pr. tick */
}
break;
}
}
INT_Enable();
}
/** @endcond */
#endif /* ( NUM_QTIMERS > 0 ) */
#endif /* defined( USB_DEVICE ) || defined( USB_HOST ) */
#endif /* defined( USB_PRESENT ) && ( USB_COUNT == 1 ) */