123 lines
2.5 KiB
C
123 lines
2.5 KiB
C
#include "Timer.h"
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#include "bcm2835int.h"
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#include "rpiHardware.h"
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// Support functions for uspi
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// Based on env\include\uspienv\timer.h
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// The number of 1MHz ticks for 10ms
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#define TEN_MILLISECS (CLOCKHZ / HZ)
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static unsigned Ticks = 0;
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static volatile TKernelTimer m_KernelTimer[KERNEL_TIMERS]; // TODO: should be linked list
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static void TimerPollKernelTimers()
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{
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//EnterCritical();
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unsigned hTimer;
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for (hTimer = 0; hTimer < KERNEL_TIMERS; hTimer++)
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{
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volatile TKernelTimer* pTimer = &m_KernelTimer[hTimer];
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TKernelTimerHandler* pHandler = pTimer->m_pHandler;
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if (pHandler != 0)
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{
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if ((int)(pTimer->m_nElapsesAt - Ticks) <= 0)
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{
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pTimer->m_pHandler = 0;
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(*pHandler)(hTimer + 1, pTimer->m_pParam, pTimer->m_pContext);
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}
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}
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}
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//LeaveCritical();
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}
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static void TimerInterruptHandler(void* pParam)
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{
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DataMemBarrier();
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//assert(read32(ARM_SYSTIMER_CS) & (1 << 3));
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u32 nCompare = read32(ARM_SYSTIMER_C3) + TEN_MILLISECS;
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write32(ARM_SYSTIMER_C3, nCompare);
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if (nCompare < read32(ARM_SYSTIMER_CLO)) // time may drift
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{
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nCompare = read32(ARM_SYSTIMER_CLO) + TEN_MILLISECS;
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write32(ARM_SYSTIMER_C3, nCompare);
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}
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write32(ARM_SYSTIMER_CS, 1 << 3);
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DataMemBarrier();
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++Ticks;
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TimerPollKernelTimers();
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}
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void TimerSystemInitialize()
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{
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InterruptSystemConnectIRQ(ARM_IRQ_TIMER3, TimerInterruptHandler, 0);
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DataMemBarrier();
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write32(ARM_SYSTIMER_CLO, -(30 * CLOCKHZ)); // timer wraps soon, to check for problems
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// Interrupt every 10ms
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write32(ARM_SYSTIMER_C3, read32(ARM_SYSTIMER_CLO) + TEN_MILLISECS);
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DataMemBarrier();
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unsigned hTimer;
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for (hTimer = 0; hTimer < KERNEL_TIMERS; hTimer++)
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{
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m_KernelTimer[hTimer].m_pHandler = 0;
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}
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}
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unsigned TimerStartKernelTimer(unsigned nDelay, TKernelTimerHandler* pHandler, void* pParam, void* pContext)
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{
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//EnterCritical();
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// DEBUG_LOG("Timer started\r\n");
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unsigned hTimer;
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for (hTimer = 0; hTimer < KERNEL_TIMERS; hTimer++)
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{
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if (m_KernelTimer[hTimer].m_pHandler == 0)
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{
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break;
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}
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}
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if (hTimer >= KERNEL_TIMERS)
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{
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//LeaveCritical();
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DEBUG_LOG("System limit of kernel timers exceeded\r\n");
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return 0;
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}
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//assert(pHandler != 0);
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m_KernelTimer[hTimer].m_pHandler = pHandler;
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m_KernelTimer[hTimer].m_nElapsesAt = Ticks+nDelay;
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m_KernelTimer[hTimer].m_pParam = pParam;
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m_KernelTimer[hTimer].m_pContext = pContext;
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//LeaveCritical();
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return hTimer+1;
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}
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void TimerCancelKernelTimer(unsigned hTimer)
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{
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//assert(1 <= hTimer && hTimer <= KERNEL_TIMERS);
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m_KernelTimer[hTimer-1].m_pHandler = 0;
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}
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