/* * * This file contains the implementation of the function described in irq.h * * Copyright (C) 1998, 1999 valette@crf.canon.fr * * The license and distribution terms for this file may be * found in found in the file LICENSE in this distribution or at * http://www.rtems.com/license/LICENSE. * * irq.c,v 1.4.2.8 2003/09/04 18:45:20 joel Exp */ #include #include #include #if 0 #include #include #endif #include #include #include #include #include #include #include /* for printk */ #define RAVEN_INTR_ACK_REG 0xfeff0030 /* * pointer to the mask representing the additionnal irq vectors * that must be disabled when a particular entry is activated. * They will be dynamically computed from teh prioruty table given * in BSP_rtems_irq_mngt_set(); * CAUTION : this table is accessed directly by interrupt routine * prologue. */ rtems_i8259_masks irq_mask_or_tbl[BSP_IRQ_NUMBER]; /* * default handler connected on each irq after bsp initialization */ static rtems_irq_connect_data default_rtems_entry; /* * location used to store initial tables used for interrupt * management. */ static rtems_irq_global_settings* internal_config; static rtems_irq_connect_data* rtems_hdl_tbl; /* * Check if IRQ is an ISA IRQ */ static inline int is_isa_irq(const rtems_irq_symbolic_name irqLine) { return (((int) irqLine <= BSP_ISA_IRQ_MAX_OFFSET) & ((int) irqLine >= BSP_ISA_IRQ_LOWEST_OFFSET) ); } /* * Check if IRQ is an OPENPIC IRQ */ static inline int is_pci_irq(const rtems_irq_symbolic_name irqLine) { return (((int) irqLine <= BSP_PCI_IRQ_MAX_OFFSET) & ((int) irqLine >= BSP_PCI_IRQ_LOWEST_OFFSET) ); } /* * Check if IRQ is a Porcessor IRQ */ static inline int is_processor_irq(const rtems_irq_symbolic_name irqLine) { return (((int) irqLine <= BSP_PROCESSOR_IRQ_MAX_OFFSET) & ((int) irqLine >= BSP_PROCESSOR_IRQ_LOWEST_OFFSET) ); } /* * ------------------------ RTEMS Irq helper functions ---------------- */ /* * Caution : this function assumes the variable "internal_config" * is already set and that the tables it contains are still valid * and accessible. */ static void compute_i8259_masks_from_prio () { int i; int j; /* * Always mask at least current interrupt to prevent re-entrance */ for (i=BSP_ISA_IRQ_LOWEST_OFFSET; i < BSP_ISA_IRQ_LOWEST_OFFSET + BSP_ISA_IRQ_NUMBER; i++) { * ((unsigned short*) &irq_mask_or_tbl[i]) = (1 << i); for (j = BSP_ISA_IRQ_LOWEST_OFFSET; j < BSP_ISA_IRQ_LOWEST_OFFSET + BSP_ISA_IRQ_NUMBER; j++) { /* * Mask interrupts at i8259 level that have a lower priority */ if (internal_config->irqPrioTbl [i] > internal_config->irqPrioTbl [j]) { * ((unsigned short*) &irq_mask_or_tbl[i]) |= (1 << j); } } } } /* * This function check that the value given for the irq line * is valid. */ static int isValidInterrupt(int irq) { if ( (irq < BSP_LOWEST_OFFSET) || (irq > BSP_MAX_OFFSET)) return 0; return 1; } /* * ------------------------ RTEMS Shared Irq Handler Mngt Routines ---------------- */ int BSP_install_rtems_shared_irq_handler (const rtems_irq_connect_data* irq) { printk("BSP_insall_rtems_shared_irq_handler Not supported in psim\n"); return 0; } /* * ------------------------ RTEMS Single Irq Handler Mngt Routines ---------------- */ int BSP_install_rtems_irq_handler (const rtems_irq_connect_data* irq) { unsigned int level; if (!isValidInterrupt(irq->name)) { printk("Invalid interrupt vector %d\n",irq->name); return 0; } /* * Check if default handler is actually connected. If not issue an error. * You must first get the current handler via i386_get_current_idt_entry * and then disconnect it using i386_delete_idt_entry. * RATIONALE : to always have the same transition by forcing the user * to get the previous handler before accepting to disconnect. */ _CPU_ISR_Disable(level); if (rtems_hdl_tbl[irq->name].hdl != default_rtems_entry.hdl) { _CPU_ISR_Enable(level); printk("IRQ vector %d already connected\n",irq->name); return 0; } /* * store the data provided by user */ rtems_hdl_tbl[irq->name] = *irq; rtems_hdl_tbl[irq->name].next_handler = (void *)-1; if (is_isa_irq(irq->name)) { printk("What's a isa_irq on psim?"); } if (is_processor_irq(irq->name)) { /* * Enable exception at processor level */ } /* * Enable interrupt on device */ irq->on(irq); _CPU_ISR_Enable(level); return 1; } int BSP_get_current_rtems_irq_handler (rtems_irq_connect_data* irq) { unsigned int level; if (!isValidInterrupt(irq->name)) { return 0; } _CPU_ISR_Disable(level); *irq = rtems_hdl_tbl[irq->name]; _CPU_ISR_Enable(level); return 1; } int BSP_remove_rtems_irq_handler (const rtems_irq_connect_data* irq) { rtems_irq_connect_data *pchain= NULL, *vchain = NULL; unsigned int level; if (!isValidInterrupt(irq->name)) { return 0; } /* * Check if default handler is actually connected. If not issue an error. * You must first get the current handler via i386_get_current_idt_entry * and then disconnect it using i386_delete_idt_entry. * RATIONALE : to always have the same transition by forcing the user * to get the previous handler before accepting to disconnect. */ _CPU_ISR_Disable(level); if (rtems_hdl_tbl[irq->name].hdl != irq->hdl) { _CPU_ISR_Enable(level); return 0; } if( (int)rtems_hdl_tbl[irq->name].next_handler != -1 ) { int found = 0; for( (pchain= NULL, vchain = &rtems_hdl_tbl[irq->name]); (vchain->hdl != default_rtems_entry.hdl); (pchain= vchain, vchain = (rtems_irq_connect_data*)vchain->next_handler) ) { if( vchain->hdl == irq->hdl ) { found= -1; break; } } if( !found ) { _CPU_ISR_Enable(level); return 0; } } else { if (rtems_hdl_tbl[irq->name].hdl != irq->hdl) { _CPU_ISR_Enable(level); return 0; } } if (is_isa_irq(irq->name)) { printk("isa irq on psim?"); } if (is_processor_irq(irq->name)) { /* * disable exception at processor level */ } /* * Disable interrupt on device */ irq->off(irq); /* * restore the default irq value */ if( !vchain ) { /* single handler vector... */ rtems_hdl_tbl[irq->name] = default_rtems_entry; } else { if( pchain ) { /* non-first handler being removed */ pchain->next_handler = vchain->next_handler; } else { /* first handler isn't malloc'ed, so just overwrite it. Since the contents of vchain are being struct copied, vchain itself goes away */ rtems_hdl_tbl[irq->name]= *vchain; } free(vchain); } _CPU_ISR_Enable(level); return 1; } /* * ------------------------ RTEMS Global Irq Handler Mngt Routines ---------------- */ int BSP_rtems_irq_mngt_set(rtems_irq_global_settings* config) { /* * Store various code accelerators */ internal_config = config; default_rtems_entry = config->defaultEntry; rtems_hdl_tbl = config->irqHdlTbl; return 1; } int BSP_rtems_irq_mngt_get(rtems_irq_global_settings** config) { *config = internal_config; return 0; } int _BSP_vme_bridge_irq = -1; unsigned BSP_spuriousIntr = 0; /* * High level IRQ handler called from shared_raw_irq_code_entry */ void C_dispatch_irq_handler (CPU_Interrupt_frame *frame, unsigned int excNum) { register unsigned msr; register unsigned new_msr; if (excNum == ASM_DEC_VECTOR) { _CPU_MSR_GET(msr); new_msr = msr | MSR_EE; _CPU_MSR_SET(new_msr); rtems_hdl_tbl[BSP_DECREMENTER].hdl(); _CPU_MSR_SET(msr); return; } } void _ThreadProcessSignalsFromIrq (BSP_Exception_frame* ctx) { /* * Process pending signals that have not already been * processed by _Thread_Displatch. This happens quite * unfrequently : the ISR must have posted an action * to the current running thread. */ if ( _Thread_Do_post_task_switch_extension || _Thread_Executing->do_post_task_switch_extension ) { _Thread_Executing->do_post_task_switch_extension = FALSE; _API_extensions_Run_postswitch(); } /* * I plan to process other thread related events here. * This will include DEBUG session requested from keyboard... */ }