/* * These routines handle the external exception. Multiple ISRs occur off * of this one interrupt. * * COPYRIGHT (c) 1989-2008. * On-Line Applications Research Corporation (OAR). * * The license and distribution terms for this file may in * the file LICENSE in this distribution or at * http://www.rtems.org/license/LICENSE. */ #include #include #include #include #include /* for sprintf */ /* * Proto types for this file */ rtems_isr external_exception_ISR ( rtems_vector_number vector /* IN */ ); #define NUM_LIRQ_HANDLERS 20 #define NUM_LIRQ ( MAX_BOARD_IRQS - PPC_IRQ_LAST ) /* * Structure to for one of possible multiple interrupt handlers for * a given interrupt. */ typedef struct { rtems_chain_node Node; rtems_isr_entry handler; /* isr routine */ rtems_vector_number vector; /* vector number */ } EE_ISR_Type; /* Note: The following will not work if we add a method to remove * handlers at a later time. */ EE_ISR_Type ISR_Nodes [NUM_LIRQ_HANDLERS]; uint16_t Nodes_Used; rtems_chain_control ISR_Array [NUM_LIRQ]; /* XXX */ void init_irq_data_register(void); void Init_EE_mask_init(void) { } /* * This routine installs one of multiple ISRs for the general purpose * inerrupt. */ rtems_isr_entry set_EE_vector( rtems_isr_entry handler, /* isr routine */ rtems_vector_number vector /* vector number */ ) { uint16_t vec_idx = vector - Score_IRQ_First; uint32_t index; assert (Nodes_Used < NUM_LIRQ_HANDLERS); /* * If we have already installed this handler for this vector, then * just reset it. */ for ( index=0 ; index <= Nodes_Used ; index++ ) { if ( ISR_Nodes[index].vector == vector && ISR_Nodes[index].handler == handler ) return NULL; } /* * Doing things in this order makes them more atomic */ Nodes_Used++; index = Nodes_Used - 1; ISR_Nodes[index].handler = handler; ISR_Nodes[index].vector = vector; /* printf( "Vector Index: %04x, Vector: %d (%x)\n", vec_idx, vector, vector); */ rtems_chain_append( &ISR_Array[vec_idx], &ISR_Nodes[index].Node ); /* * Unmask the interrupt. */ unmask_irq( vec_idx ); return NULL; } /* * This interrupt service routine is called for an External Exception. */ rtems_isr external_exception_ISR ( rtems_vector_number vector /* IN */ ) { uint16_t index; EE_ISR_Type *node; uint16_t value; #if (HAS_PMC_PSC8) uint16_t PMC_irq; uint16_t check_irq; uint16_t status_word; #endif index = read_and_clear_irq(); if ( index >= NUM_LIRQ ) { printk( "ERROR:: Invalid interrupt number (%02x)\n", index ); return; } #if (HAS_PMC_PSC8) PMC_irq = SCORE603E_PCI_IRQ_0 - SCORE603E_IRQ00; if (index == PMC_irq) { status_word = read_and_clear_PMC_irq( index ); for (check_irq=SCORE603E_IRQ16; check_irq<=SCORE603E_IRQ19; check_irq++) { if ( Is_PMC_IRQ( check_irq, status_word )) { index = check_irq - SCORE603E_IRQ00; node = (EE_ISR_Type *)(ISR_Array[ index ].first); if ( rtems_chain_is_tail( &ISR_Array[ index ], (void *)node ) ) { printk ("ERROR:: check %d interrupt %02d has no isr\n", check_irq, index); value = get_irq_mask(); printk(" Mask = %02x\n", value); } while ( !rtems_chain_is_tail( &ISR_Array[ index ], (void *)node ) ) { (*node->handler)( node->vector ); node = (EE_ISR_Type *) node->Node.next; } } } } else #endif { node = (EE_ISR_Type *)(ISR_Array[ index ].first); if ( rtems_chain_is_tail( &ISR_Array[ index ], (void *)node ) ) { printk( "ERROR:: interrupt %02x has no isr\n", index); value = get_irq_mask(); printk(" Mask = %02x\n", value); return; } while ( !rtems_chain_is_tail( &ISR_Array[ index ], (void *)node ) ) { (*node->handler)( node->vector ); node = (EE_ISR_Type *) node->Node.next; } } }