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[/] [or1k/] [trunk/] [rtems-20020807/] [cpukit/] [score/] [cpu/] [arm/] [cpu.c] - Rev 1779
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/* * ARM CPU Dependent Source * * * COPYRIGHT (c) 2000 Canon Research Centre France SA. * Emmanuel Raguet, mailto:raguet@crf.canon.fr * * Copyright (c) 2002 Advent Networks, Inc * Jay Monkman <jmonkman@adventnetworks.com> * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.OARcorp.com/rtems/license.html. * */ #include <rtems/system.h> #include <rtems.h> #include <rtems/bspIo.h> #include <rtems/score/isr.h> #include <rtems/score/wkspace.h> #include <rtems/score/thread.h> #include <rtems/score/cpu.h> /* _CPU_Initialize * * This routine performs processor dependent initialization. * * INPUT PARAMETERS: * cpu_table - CPU table to initialize * thread_dispatch - address of ISR disptaching routine (unused) * */ unsigned32 g_data_abort_cnt = 0; unsigned32 g_data_abort_insn_list[1024]; void _CPU_Initialize( rtems_cpu_table *cpu_table, void (*thread_dispatch) /* ignored on this CPU */ ) { _CPU_Table = *cpu_table; } /* * * _CPU_ISR_Get_level - returns the current interrupt level */ unsigned32 _CPU_ISR_Get_level( void ) { unsigned32 reg; asm volatile ("mrs %0, cpsr \n" \ "and %0, %0, #0xc0 \n" \ : "=r" (reg) \ : "0" (reg) ); return reg; } /* * _CPU_ISR_install_vector * * This kernel routine installs the RTEMS handler for the * specified vector. * * Input parameters: * vector - interrupt vector number * new_handler - replacement ISR for this vector number * old_handler - pointer to store former ISR for this vector number * * FIXME: This vector scheme should be changed to allow FIQ to be * handled better. I'd like to be able to put VectorTable * elsewhere - JTM * * * Output parameters: NONE * */ void _CPU_ISR_install_vector( unsigned32 vector, proc_ptr new_handler, proc_ptr *old_handler ) { /* pointer on the redirection table in RAM */ long *VectorTable = (long *)(MAX_EXCEPTIONS * 4); if (old_handler != NULL) { old_handler = *(proc_ptr *)(VectorTable + vector); } *(VectorTable + vector) = (long)new_handler ; } void _CPU_Context_Initialize( Context_Control *the_context, unsigned32 *stack_base, unsigned32 size, unsigned32 new_level, void *entry_point, boolean is_fp ) { the_context->register_sp = (unsigned32)stack_base + size ; the_context->register_lr = (unsigned32)entry_point; the_context->register_cpsr = new_level | 0x13; } /* * _CPU_Install_interrupt_stack - this function is empty since the * BSP must set up the interrupt stacks. */ void _CPU_Install_interrupt_stack( void ) { } void _defaultExcHandler (CPU_Exception_frame *ctx) { printk("\n\r"); printk("----------------------------------------------------------\n\r"); #if 0 printk("Exception 0x%x caught at PC 0x%x by thread %d\n", ctx->register_pc, ctx->register_lr - 4, _Thread_Executing->Object.id); #endif printk("----------------------------------------------------------\n\r"); printk("Processor execution context at time of the fault was :\n\r"); printk("----------------------------------------------------------\n\r"); #if 0 printk(" r0 = %8x r1 = %8x r2 = %8x r3 = %8x\n\r", ctx->register_r0, ctx->register_r1, ctx->register_r2, ctx->register_r3); printk(" r4 = %8x r5 = %8x r6 = %8x r7 = %8x\n\r", ctx->register_r4, ctx->register_r5, ctx->register_r6, ctx->register_r7); printk(" r8 = %8x r9 = %8x r10 = %8x\n\r", ctx->register_r8, ctx->register_r9, ctx->register_r10); printk(" fp = %8x ip = %8x sp = %8x pc = %8x\n\r", ctx->register_fp, ctx->register_ip, ctx->register_sp, ctx->register_lr - 4); printk("----------------------------------------------------------\n\r"); #endif if (_ISR_Nest_level > 0) { /* * In this case we shall not delete the task interrupted as * it has nothing to do with the fault. We cannot return either * because the eip points to the faulty instruction so... */ printk("Exception while executing ISR!!!. System locked\n\r"); while(1); } else { printk("*********** FAULTY THREAD WILL BE DELETED **************\n\r"); rtems_task_delete(_Thread_Executing->Object.id); } } cpuExcHandlerType _currentExcHandler = _defaultExcHandler; extern void _Exception_Handler_Undef_Swi(); extern void _Exception_Handler_Abort(); extern void _exc_data_abort(); /* FIXME: put comments here */ void rtems_exception_init_mngt() { ISR_Level level; _CPU_ISR_Disable(level); _CPU_ISR_install_vector(ARM_EXCEPTION_UNDEF, _Exception_Handler_Undef_Swi, NULL); _CPU_ISR_install_vector(ARM_EXCEPTION_SWI, _Exception_Handler_Undef_Swi, NULL); _CPU_ISR_install_vector(ARM_EXCEPTION_PREF_ABORT, _Exception_Handler_Abort, NULL); _CPU_ISR_install_vector(ARM_EXCEPTION_DATA_ABORT, _exc_data_abort, NULL); _CPU_ISR_install_vector(ARM_EXCEPTION_FIQ, _Exception_Handler_Abort, NULL); _CPU_ISR_install_vector(ARM_EXCEPTION_IRQ, _Exception_Handler_Abort, NULL); _CPU_ISR_Enable(level); } #define INSN_MASK 0xc5 #define INSN_STM1 0x80 #define INSN_STM2 0x84 #define INSN_STR 0x40 #define INSN_STRB 0x44 #define INSN_LDM1 0x81 #define INSN_LDM23 0x85 #define INSN_LDR 0x41 #define INSN_LDRB 0x45 #define GET_RD(x) ((x & 0x0000f000) >> 12) #define GET_RN(x) ((x & 0x000f0000) >> 16) #define GET_U(x) ((x & 0x00800000) >> 23) #define GET_I(x) ((x & 0x02000000) >> 25) #define GET_REG(r, ctx) (((unsigned32 *)ctx)[r]) #define SET_REG(r, ctx, v) (((unsigned32 *)ctx)[r] = v) #define GET_OFFSET(insn) (insn & 0xfff) /* This function is supposed to figure out what caused the * data abort, do that, then return. * * All unhandled instructions cause the system to hang. */ void do_data_abort(unsigned32 insn, unsigned32 spsr, CPU_Exception_frame *ctx) { unsigned8 decode; unsigned8 insn_type; unsigned32 rn; unsigned32 rd; unsigned8 *src_addr; unsigned8 *dest_addr; unsigned32 tmp; g_data_abort_insn_list[g_data_abort_cnt & 0x3ff] = ctx->register_lr - 8; g_data_abort_cnt++; decode = ((insn >> 20) & 0xff); insn_type = decode & INSN_MASK; switch(insn_type) { case INSN_STM1: printk("\n\nINSN_STM1\n"); break; case INSN_STM2: printk("\n\nINSN_STM2\n"); break; case INSN_STR: printk("\n\nINSN_STR\n"); break; case INSN_STRB: printk("\n\nINSN_STRB\n"); break; case INSN_LDM1: printk("\n\nINSN_LDM1\n"); break; case INSN_LDM23: printk("\n\nINSN_LDM23\n"); break; case INSN_LDR: printk("\n\nINSN_LDR\n"); rn = GET_RN(insn); rd = GET_RD(insn); /* immediate offset/index */ if (GET_I(insn) == 0) { switch(decode & 0x12) { /* P and W bits */ case 0x00: /* P=0, W=0 -> base is updated, post-indexed */ printk("\tPost-indexed\n"); break; case 0x02: /* P=0, W=1 -> user mode access */ printk("\tUser mode\n"); break; case 0x10: /* P=1, W=0 -> base not updated */ src_addr = GET_REG(rn, ctx); if (GET_U(insn) == 0) { src_addr -= GET_OFFSET(insn); } else { src_addr += GET_OFFSET(insn); } tmp = (src_addr[0] | (src_addr[1] << 8) | (src_addr[2] << 16) | (src_addr[3] << 24)); SET_REG(rd, ctx, tmp); return; break; case 0x12: /* P=1, W=1 -> base is updated, pre-indexed */ printk("\tPre-indexed\n"); break; } } break; case INSN_LDRB: printk("\n\nINSN_LDRB\n"); break; default: printk("\n\nUnrecognized instruction\n"); break; } printk("data_abort at address 0x%x, instruction: 0x%x, spsr = 0x%x\n", ctx->register_lr - 8, insn, spsr); /* disable interrupts, wait forever */ _CPU_ISR_Disable(tmp); while(1) { continue; } return; }
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