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/*
* @file: ppe/sbe/sbefw/sbeirq.C
*
* @brief This sets up and registers SBE ISRs
*
*/
#include "sbeexeintf.H"
#include "sbeirq.H"
#include "sbetrace.H"
#include "assert.h"
extern sbeIntrHandle_t g_sbeIntrSource ;
////////////////////////////////////////////////////////////////
// @brief: SBE control loop ISR:
// - FIFO new data available
// - FIFO reset request
// - PSU new data available
//
// @param[in] i_pArg - Unused
// @param[in] i_irq - IRQ number as defined in sbeirq.h
//
////////////////////////////////////////////////////////////////
void sbe_interrupt_handler (void *i_pArg, PkIrqId i_irq)
{
#define SBE_FUNC " sbe_interrupt_handler "
SBE_ENTER(SBE_FUNC"i_irq=[0x%02X]",i_irq);
int l_rc = 0;
switch (i_irq)
{
case SBE_IRQ_HOST_PSU_INTR:
g_sbeIntrSource.setIntrSource(SBE_INTERFACE_PSU);
break;
case SBE_IRQ_SBEFIFO_DATA:
g_sbeIntrSource.setIntrSource(SBE_INTERFACE_FIFO);
pk_irq_disable(SBE_IRQ_SBEFIFO_RESET);
break;
case SBE_IRQ_SBEFIFO_RESET:
g_sbeIntrSource.setIntrSource(SBE_INTERFACE_FIFO_RESET);
pk_irq_disable(SBE_IRQ_SBEFIFO_DATA);
break;
default:
SBE_ERROR(SBE_FUNC"Unknown IRQ, assert");
assert(0);
break;
}
// Mask the interrupt
pk_irq_disable(i_irq);
// Unblock the command receiver thread
l_rc = pk_semaphore_post(&g_sbeSemCmdRecv);
if (l_rc)
{
// If we received an error while posting the semaphore,
// unmask the interrupt back and assert
SBE_ERROR(SBE_FUNC"pk_semaphore_post failed, rc=[%d]", l_rc);
pk_irq_enable(i_irq);
assert(!l_rc);
}
#undef SBE_FUNC
}
////////////////////////////////////////////////////////////////
// See sbeexeintf.h for more details
////////////////////////////////////////////////////////////////
int sbeIRQSetup (void)
{
#define SBE_FUNC " sbeIRQSetup "
int l_rc = 0;
PkIrqId l_irq;
// Disable the relevant IRQs while we set them up
pk_irq_disable(SBE_IRQ_HOST_PSU_INTR);
pk_irq_disable(SBE_IRQ_SBEFIFO_DATA);
pk_irq_disable(SBE_IRQ_SBEFIFO_RESET);
do
{
// Register the IRQ handler with PK
// PSU New data available interrupt
l_irq = SBE_IRQ_HOST_PSU_INTR;
l_rc = pk_irq_handler_set(l_irq, sbe_interrupt_handler, NULL);
if(l_rc)
{
break;
}
// FIFO New data available interrupt
l_irq = SBE_IRQ_SBEFIFO_DATA;
l_rc = pk_irq_handler_set(l_irq, sbe_interrupt_handler, NULL);
if(l_rc)
{
break;
}
// FIFO Reset request
l_irq = SBE_IRQ_SBEFIFO_RESET;
l_rc = pk_irq_handler_set(l_irq, sbe_interrupt_handler, NULL);
if(l_rc)
{
break;
}
// Enable the IRQ
pk_irq_enable(SBE_IRQ_SBEFIFO_RESET);
pk_irq_enable(SBE_IRQ_SBEFIFO_DATA);
pk_irq_enable(SBE_IRQ_HOST_PSU_INTR);
} while(false);
if (l_rc)
{
SBE_ERROR (SBE_FUNC"pk_irq_handler_set failed, IRQ=[0x%02X], "
"rc=[%d]", l_irq, l_rc);
}
return l_rc;
#undef SBE_FUNC
}
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