From 70f326cf3ff2766c146870923a3589cbcad917b3 Mon Sep 17 00:00:00 2001 From: Ralf Corsepius Date: Wed, 20 Feb 2008 02:59:59 +0000 Subject: Remove (Abandoned). --- .../score/cpu/powerpc/rtems/old-exceptions/cpu.h | 450 --------------------- 1 file changed, 450 deletions(-) delete mode 100644 cpukit/score/cpu/powerpc/rtems/old-exceptions/cpu.h (limited to 'cpukit/score/cpu/powerpc/rtems/old-exceptions') diff --git a/cpukit/score/cpu/powerpc/rtems/old-exceptions/cpu.h b/cpukit/score/cpu/powerpc/rtems/old-exceptions/cpu.h deleted file mode 100644 index 7fa9371dda..0000000000 --- a/cpukit/score/cpu/powerpc/rtems/old-exceptions/cpu.h +++ /dev/null @@ -1,450 +0,0 @@ -/* cpu.h - * - * This include file contains information pertaining to the PowerPC - * processor. - * - * Author: Andrew Bray - * - * COPYRIGHT (c) 1995 by i-cubed ltd. - * - * To anyone who acknowledges that this file is provided "AS IS" - * without any express or implied warranty: - * permission to use, copy, modify, and distribute this file - * for any purpose is hereby granted without fee, provided that - * the above copyright notice and this notice appears in all - * copies, and that the name of i-cubed limited not be used in - * advertising or publicity pertaining to distribution of the - * software without specific, written prior permission. - * i-cubed limited makes no representations about the suitability - * of this software for any purpose. - * - * Derived from c/src/exec/cpu/no_cpu/cpu.h: - * - * COPYRIGHT (c) 1989-2007. - * 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.com/license/LICENSE. - * - * $Id$ - */ - -#ifndef _RTEMS_OLD_EXCEPTIONS_CPU_H -#define _RTEMS_OLD_EXCEPTIONS_CPU_H - -#ifndef _RTEMS_SCORE_CPU_H -#error "You should include " -#endif - -#ifdef __cplusplus -extern "C" { -#endif - -#ifndef ASM -struct CPU_Interrupt_frame; -typedef void ( *ppc_isr_entry )( int, struct CPU_Interrupt_frame * ); -#endif - -/* conditional compilation parameters */ - -/* - * Does RTEMS manage a dedicated interrupt stack in software? - * - * If TRUE, then a stack is allocated in _ISR_Handler_initialization. - * If FALSE, nothing is done. - * - * If the CPU supports a dedicated interrupt stack in hardware, - * then it is generally the responsibility of the BSP to allocate it - * and set it up. - * - * If the CPU does not support a dedicated interrupt stack, then - * the porter has two options: (1) execute interrupts on the - * stack of the interrupted task, and (2) have RTEMS manage a dedicated - * interrupt stack. - * - * If this is TRUE, CPU_ALLOCATE_INTERRUPT_STACK should also be TRUE. - * - * Only one of CPU_HAS_SOFTWARE_INTERRUPT_STACK and - * CPU_HAS_HARDWARE_INTERRUPT_STACK should be set to TRUE. It is - * possible that both are FALSE for a particular CPU. Although it - * is unclear what that would imply about the interrupt processing - * procedure on that CPU. - */ - -#define CPU_HAS_SOFTWARE_INTERRUPT_STACK FALSE - -/* - * Does this CPU have hardware support for a dedicated interrupt stack? - * - * If TRUE, then it must be installed during initialization. - * If FALSE, then no installation is performed. - * - * If this is TRUE, CPU_ALLOCATE_INTERRUPT_STACK should also be TRUE. - * - * Only one of CPU_HAS_SOFTWARE_INTERRUPT_STACK and - * CPU_HAS_HARDWARE_INTERRUPT_STACK should be set to TRUE. It is - * possible that both are FALSE for a particular CPU. Although it - * is unclear what that would imply about the interrupt processing - * procedure on that CPU. - */ - -/* - * ACB: This is a lie, but it gets us a handle on a call to set up - * a variable derived from the top of the interrupt stack. - */ - -#define CPU_HAS_HARDWARE_INTERRUPT_STACK TRUE - -/* - * Does RTEMS allocate a dedicated interrupt stack in the Interrupt Manager? - * - * If TRUE, then the memory is allocated during initialization. - * If FALSE, then the memory is allocated during initialization. - * - * This should be TRUE is CPU_HAS_SOFTWARE_INTERRUPT_STACK is TRUE. - */ - -#define CPU_ALLOCATE_INTERRUPT_STACK TRUE - -/* - * Does the RTEMS invoke the user's ISR with the vector number and - * a pointer to the saved interrupt frame (1) or just the vector - * number (0)? - */ - -#define CPU_ISR_PASSES_FRAME_POINTER 1 - -/* - * Should the saving of the floating point registers be deferred - * until a context switch is made to another different floating point - * task? - * - * If TRUE, then the floating point context will not be stored until - * necessary. It will remain in the floating point registers and not - * disturned until another floating point task is switched to. - * - * If FALSE, then the floating point context is saved when a floating - * point task is switched out and restored when the next floating point - * task is restored. The state of the floating point registers between - * those two operations is not specified. - * - * If the floating point context does NOT have to be saved as part of - * interrupt dispatching, then it should be safe to set this to TRUE. - * - * Setting this flag to TRUE results in using a different algorithm - * for deciding when to save and restore the floating point context. - * The deferred FP switch algorithm minimizes the number of times - * the FP context is saved and restored. The FP context is not saved - * until a context switch is made to another, different FP task. - * Thus in a system with only one FP task, the FP context will never - * be saved or restored. - */ -/* - * ACB Note: This could make debugging tricky.. - */ - -#define CPU_USE_DEFERRED_FP_SWITCH TRUE - -/* - * The following defines the number of bits actually used in the - * interrupt field of the task mode. How those bits map to the - * CPU interrupt levels is defined by the routine _CPU_ISR_Set_level(). - * - * The interrupt level is bit mapped for the PowerPC family. The - * bits are set to 0 to indicate that a particular exception source - * enabled and 1 if it is disabled. This keeps with RTEMS convention - * that interrupt level 0 means all sources are enabled. - * - * The bits are assigned to correspond to enable bits in the MSR. - */ - -#define PPC_INTERRUPT_LEVEL_ME 0x01 -#define PPC_INTERRUPT_LEVEL_EE 0x02 -#define PPC_INTERRUPT_LEVEL_CE 0x04 - -/* XXX should these be maskable? */ -#if 0 -#define PPC_INTERRUPT_LEVEL_DE 0x08 -#define PPC_INTERRUPT_LEVEL_BE 0x10 -#define PPC_INTERRUPT_LEVEL_SE 0x20 -#endif - -#define CPU_MODES_INTERRUPT_MASK 0x00000007 - -/* - * Processor defined structures required for cpukit/score. - */ - -/* - * The following type defines an entry in the PPC's trap table. - * - * NOTE: The instructions chosen are RTEMS dependent although one is - * obligated to use two of the four instructions to perform a - * long jump. The other instructions load one register with the - * trap type (a.k.a. vector) and another with the psr. - */ - -#ifndef ASM -typedef struct { - uint32_t stwu_r1; /* stwu %r1, -(??+IP_END)(%1)*/ - uint32_t stw_r0; /* stw %r0, IP_0(%r1) */ - uint32_t li_r0_IRQ; /* li %r0, _IRQ */ - uint32_t b_Handler; /* b PROC (_ISR_Handler) */ -} CPU_Trap_table_entry; -#endif - -/* - * This variable is optional. It is used on CPUs on which it is difficult - * to generate an "uninitialized" FP context. It is filled in by - * _CPU_Initialize and copied into the task's FP context area during - * _CPU_Context_Initialize. - */ - -#ifndef ASM -/* EXTERN Context_Control_fp _CPU_Null_fp_context; */ -#endif - -/* - * On some CPUs, RTEMS supports a software managed interrupt stack. - * This stack is allocated by the Interrupt Manager and the switch - * is performed in _ISR_Handler. These variables contain pointers - * to the lowest and highest addresses in the chunk of memory allocated - * for the interrupt stack. Since it is unknown whether the stack - * grows up or down (in general), this give the CPU dependent - * code the option of picking the version it wants to use. - * - * NOTE: These two variables are required if the macro - * CPU_HAS_SOFTWARE_INTERRUPT_STACK is defined as TRUE. - */ - -#ifndef ASM -SCORE_EXTERN void *_CPU_Interrupt_stack_low; -SCORE_EXTERN void *_CPU_Interrupt_stack_high; -#endif - -/* - * With some compilation systems, it is difficult if not impossible to - * call a high-level language routine from assembly language. This - * is especially true of commercial Ada compilers and name mangling - * C++ ones. This variable can be optionally defined by the CPU porter - * and contains the address of the routine _Thread_Dispatch. This - * can make it easier to invoke that routine at the end of the interrupt - * sequence (if a dispatch is necessary). - */ - -#ifndef ASM -/* EXTERN void (*_CPU_Thread_dispatch_pointer)(); */ -#endif - -/* - * Nothing prevents the porter from declaring more CPU specific variables. - */ - - -#ifndef ASM -SCORE_EXTERN struct { - uint32_t volatile* Nest_level; - uint32_t volatile* Disable_level; - void *Vector_table; - void *Stack; - uint32_t Default_r2; - uint32_t Default_r13; - volatile boolean *Switch_necessary; - boolean *Signal; - - uint32_t msr_initial; -} _CPU_IRQ_info CPU_STRUCTURE_ALIGNMENT; -#endif - -/* - * The size of the floating point context area. On some CPUs this - * will not be a "sizeof" because the format of the floating point - * area is not defined -- only the size is. This is usually on - * CPUs with a "floating point save context" instruction. - */ - -#define CPU_CONTEXT_FP_SIZE sizeof( Context_Control_fp ) - -/* - * (Optional) # of bytes for libmisc/stackchk to check - * If not specifed, then it defaults to something reasonable - * for most architectures. - */ - -#define CPU_STACK_CHECK_SIZE (128) - -/* - * Amount of extra stack (above minimum stack size) required by - * MPCI receive server thread. Remember that in a multiprocessor - * system this thread must exist and be able to process all directives. - */ - -#define CPU_MPCI_RECEIVE_SERVER_EXTRA_STACK 0 - -/* - * This defines the number of entries in the ISR_Vector_table managed - * by RTEMS. - */ - -#define CPU_INTERRUPT_NUMBER_OF_VECTORS (PPC_INTERRUPT_MAX) -#define CPU_INTERRUPT_MAXIMUM_VECTOR_NUMBER (PPC_INTERRUPT_MAX - 1) - -/* - * This is defined if the port has a special way to report the ISR nesting - * level. Most ports maintain the variable _ISR_Nest_level. - */ - -#define CPU_PROVIDES_ISR_IS_IN_PROGRESS TRUE - -/* - * ISR handler macros - */ - -#ifndef ASM -void _CPU_Initialize_vectors(void); -#endif - -/* - * Disable all interrupts for an RTEMS critical section. The previous - * level is returned in _isr_cookie. - */ - -#ifndef ASM -extern const unsigned int _PPC_MSR_DISABLE_MASK; - -#define _CPU_MSR_GET( _msr_value ) \ - do { \ - _msr_value = 0; \ - asm volatile ("mfmsr %0" : "=&r" ((_msr_value)) : "0" ((_msr_value))); \ - } while (0) - -/* FIXME: Backward compatibility - * new-exception-processing uses _CPU_MSR_GET - * old-exception-processing had used _CPU_MSR_Value - */ -#define _CPU_MSR_Value(_msr_value) _CPU_MSR_GET(_msr_value) - -#define _CPU_MSR_SET( _msr_value ) \ -{ asm volatile ("mtmsr %0" : "=&r" ((_msr_value)) : "0" ((_msr_value))); } - -#if 0 -#define _CPU_ISR_Disable( _isr_cookie ) \ - { register unsigned int _disable_mask = _PPC_MSR_DISABLE_MASK; \ - _isr_cookie = 0; \ - asm volatile ( - "mfmsr %0" : \ - "=r" ((_isr_cookie)) : \ - "0" ((_isr_cookie)) \ - ); \ - asm volatile ( - "andc %1,%0,%1" : \ - "=r" ((_isr_cookie)), "=&r" ((_disable_mask)) : \ - "0" ((_isr_cookie)), "1" ((_disable_mask)) \ - ); \ - asm volatile ( - "mtmsr %1" : \ - "=r" ((_disable_mask)) : \ - "0" ((_disable_mask)) \ - ); \ - } -#endif - -#define _CPU_ISR_Disable( _isr_cookie ) \ - { register unsigned int _disable_mask = _PPC_MSR_DISABLE_MASK; \ - _isr_cookie = 0; \ - asm volatile ( \ - "mfmsr %0; andc %1,%0,%1; mtmsr %1" : \ - "=&r" ((_isr_cookie)), "=&r" ((_disable_mask)) : \ - "0" ((_isr_cookie)), "1" ((_disable_mask)) \ - ); \ - } -#endif - -/* - * Enable interrupts to the previous level (returned by _CPU_ISR_Disable). - * This indicates the end of an RTEMS critical section. The parameter - * _isr_cookie is not modified. - */ - -#ifndef ASM -#define _CPU_ISR_Enable( _isr_cookie ) \ - { \ - asm volatile ( "mtmsr %0" : \ - "=r" ((_isr_cookie)) : \ - "0" ((_isr_cookie))); \ - } -#endif - -/* - * This temporarily restores the interrupt to _isr_cookie before immediately - * disabling them again. This is used to divide long RTEMS critical - * sections into two or more parts. The parameter _isr_cookie is not - * modified. - * - * NOTE: The version being used is not very optimized but it does - * not trip a problem in gcc where the disable mask does not - * get loaded. Check this for future (post 10/97 gcc versions. - */ - -#ifndef ASM -#define _CPU_ISR_Flash( _isr_cookie ) \ - { register unsigned int _disable_mask = _PPC_MSR_DISABLE_MASK; \ - asm volatile ( \ - "mtmsr %0; andc %1,%0,%1; mtmsr %1" : \ - "=&r" ((_isr_cookie)), "=&r" ((_disable_mask)) : \ - "0" ((_isr_cookie)), "1" ((_disable_mask)) \ - ); \ - } -#endif - -/* - * Map interrupt level in task mode onto the hardware that the CPU - * actually provides. Currently, interrupt levels which do not - * map onto the CPU in a generic fashion are undefined. Someday, - * it would be nice if these were "mapped" by the application - * via a callout. For example, m68k has 8 levels 0 - 7, levels - * 8 - 255 would be available for bsp/application specific meaning. - * This could be used to manage a programmable interrupt controller - * via the rtems_task_mode directive. - */ - -#ifndef ASM -uint32_t _CPU_ISR_Calculate_level( - uint32_t new_level -); - -void _CPU_ISR_Set_level( - uint32_t new_level -); - -uint32_t _CPU_ISR_Get_level( void ); - -void _CPU_ISR_install_raw_handler( - uint32_t vector, - proc_ptr new_handler, - proc_ptr *old_handler -); -#endif - -/* end of ISR handler macros */ - -/* Fatal Error manager macros */ - -/* - * This routine copies _error into a known place -- typically a stack - * location or a register, optionally disables interrupts, and - * halts/stops the CPU. - */ - -#define _CPU_Fatal_halt( _error ) \ - _CPU_Fatal_error(_error) - -/* end of Fatal Error manager macros */ - - -#ifdef __cplusplus -} -#endif - -#endif -- cgit v1.2.3