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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [exec/] [score/] [cpu/] [i386/] [rtems/] [score/] [cpu.h] - Rev 389

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/*  cpu.h
 *
 *  This include file contains information pertaining to the Intel
 *  i386 processor.
 *
 *  COPYRIGHT (c) 1989-1999.
 *  On-Line Applications Research Corporation (OAR).
 *
 *  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.
 *
 *  $Id: cpu.h,v 1.2 2001-09-27 11:59:27 chris Exp $
 */
 
#ifndef __CPU_h
#define __CPU_h
 
#ifdef __cplusplus
extern "C" {
#endif
 
#include <rtems/score/i386.h>              /* pick up machine definitions */
#include <libcpu/cpu.h>
 
#ifndef ASM
#include <rtems/score/i386types.h>
#endif
 
/* conditional compilation parameters */
 
#define CPU_INLINE_ENABLE_DISPATCH       TRUE
#define CPU_UNROLL_ENQUEUE_PRIORITY      FALSE
 
/*
 *  i386 has an RTEMS allocated and managed interrupt stack.
 */
 
#define CPU_HAS_SOFTWARE_INTERRUPT_STACK TRUE
#define CPU_HAS_HARDWARE_INTERRUPT_STACK FALSE
#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 0
 
/*
 *  Some family members have no FP, some have an FPU such as the i387
 *  for the i386, others have it built in (i486DX, Pentium).
 */
 
#if ( I386_HAS_FPU == 1 )
#define CPU_HARDWARE_FP     TRUE    /* i387 for i386 */
#else
#define CPU_HARDWARE_FP     FALSE
#endif
 
#define CPU_ALL_TASKS_ARE_FP             FALSE
#define CPU_IDLE_TASK_IS_FP              FALSE
#define CPU_USE_DEFERRED_FP_SWITCH       TRUE
 
#define CPU_STACK_GROWS_UP               FALSE
#define CPU_STRUCTURE_ALIGNMENT
 
/*
 *  Does this port provide a CPU dependent IDLE task implementation?
 *  
 *  If TRUE, then the routine _CPU_Thread_Idle_body
 *  must be provided and is the default IDLE thread body instead of
 *  _CPU_Thread_Idle_body.
 *
 *  If FALSE, then use the generic IDLE thread body if the BSP does
 *  not provide one.
 */
 
#define CPU_PROVIDES_IDLE_THREAD_BODY    TRUE
 
/*
 *  Define what is required to specify how the network to host conversion
 *  routines are handled.
 */
 
#define CPU_HAS_OWN_HOST_TO_NETWORK_ROUTINES     FALSE
#define CPU_BIG_ENDIAN                           FALSE
#define CPU_LITTLE_ENDIAN                        TRUE
 
/* structures */
 
/*
 *  Basic integer context for the i386 family.
 */
 
typedef struct {
  unsigned32  eflags;   /* extended flags register                   */
  void       *esp;      /* extended stack pointer register           */
  void       *ebp;      /* extended base pointer register            */
  unsigned32  ebx;      /* extended bx register                      */
  unsigned32  esi;      /* extended source index register            */
  unsigned32  edi;      /* extended destination index flags register */
}   Context_Control;
 
/*
 *  FP context save area for the i387 numeric coprocessors.
 */
 
typedef struct {
  unsigned8   fp_save_area[108];    /* context size area for I80387 */
                                    /*  28 bytes for environment    */
} Context_Control_fp;
 
 
/*
 *  The following structure defines the set of information saved
 *  on the current stack by RTEMS upon receipt of execptions.
 *
 * idtIndex is either the interrupt number or the trap/exception number.
 * faultCode is the code pushed by the processor on some exceptions.
 */
 
typedef struct {
  unsigned32  edi;
  unsigned32  esi;
  unsigned32  ebp;
  unsigned32  esp0;
  unsigned32  ebx;
  unsigned32  edx;
  unsigned32  ecx;
  unsigned32  eax;
  unsigned32  idtIndex;
  unsigned32  faultCode;
  unsigned32  eip;
  unsigned32  cs;
  unsigned32  eflags;
} CPU_Exception_frame;
 
typedef void (*cpuExcHandlerType) (CPU_Exception_frame*);
extern cpuExcHandlerType _currentExcHandler;
extern void rtems_exception_init_mngt();
 
/*
 *  The following structure defines the set of information saved
 *  on the current stack by RTEMS upon receipt of each interrupt
 *  that will lead to re-enter the kernel to signal the thread.
 */
 
typedef CPU_Exception_frame CPU_Interrupt_frame;
 
typedef enum {
  I386_EXCEPTION_DIVIDE_BY_ZERO      = 0,
  I386_EXCEPTION_DEBUG               = 1,
  I386_EXCEPTION_NMI                 = 2,
  I386_EXCEPTION_BREAKPOINT          = 3,
  I386_EXCEPTION_OVERFLOW            = 4,
  I386_EXCEPTION_BOUND               = 5,
  I386_EXCEPTION_ILLEGAL_INSTR       = 6,
  I386_EXCEPTION_MATH_COPROC_UNAVAIL = 7,
  I386_EXCEPTION_DOUBLE_FAULT        = 8,
  I386_EXCEPTION_I386_COPROC_SEG_ERR = 9,
  I386_EXCEPTION_INVALID_TSS         = 10,
  I386_EXCEPTION_SEGMENT_NOT_PRESENT = 11,
  I386_EXCEPTION_STACK_SEGMENT_FAULT = 12,
  I386_EXCEPTION_GENERAL_PROT_ERR    = 13,
  I386_EXCEPTION_PAGE_FAULT          = 14,
  I386_EXCEPTION_INTEL_RES15         = 15,
  I386_EXCEPTION_FLOAT_ERROR         = 16,
  I386_EXCEPTION_ALIGN_CHECK         = 17,
  I386_EXCEPTION_MACHINE_CHECK       = 18,
  I386_EXCEPTION_ENTER_RDBG          = 50     /* to enter manually RDBG */
 
} Intel_symbolic_exception_name;
 
 
/*
 *  The following table contains the information required to configure
 *  the i386 specific parameters.
 */
 
typedef struct {
  void       (*pretasking_hook)( void );
  void       (*predriver_hook)( void );
  void       (*postdriver_hook)( void );
  void       (*idle_task)( void );
  boolean      do_zero_of_workspace;
  unsigned32   idle_task_stack_size;
  unsigned32   interrupt_stack_size;
  unsigned32   extra_mpci_receive_server_stack;
  void *     (*stack_allocate_hook)( unsigned32 );
  void       (*stack_free_hook)( void* );
  /* end of fields required on all CPUs */
 
  unsigned32   interrupt_table_segment;
  void        *interrupt_table_offset;
}   rtems_cpu_table;
 
/*
 *  Macros to access required entires in the CPU Table are in 
 *  the file rtems/system.h.
 */
 
/*
 *  Macros to access i386 specific additions to the CPU Table
 */
 
#define rtems_cpu_configuration_get_interrupt_table_segment() \
   (_CPU_Table.interrupt_table_segment)
 
#define rtems_cpu_configuration_get_interrupt_table_offset() \
   (_CPU_Table.interrupt_table_offset)
 
/*
 *  context size area for floating point
 *
 *  NOTE:  This is out of place on the i386 to avoid a forward reference.
 */
 
#define CPU_CONTEXT_FP_SIZE sizeof( Context_Control_fp )
 
/* variables */
 
SCORE_EXTERN Context_Control_fp  _CPU_Null_fp_context;
SCORE_EXTERN void               *_CPU_Interrupt_stack_low;
SCORE_EXTERN void               *_CPU_Interrupt_stack_high;
 
/* constants */
 
/*
 *  This defines the number of levels and the mask used to pick those
 *  bits out of a thread mode.
 */
 
#define CPU_MODES_INTERRUPT_LEVEL  0x00000001 /* interrupt level in mode */
#define CPU_MODES_INTERRUPT_MASK   0x00000001 /* interrupt level in mode */
 
/*
 *  extra stack required by the MPCI receive server thread
 */
 
#define CPU_MPCI_RECEIVE_SERVER_EXTRA_STACK 1024
 
/*
 *  i386 family supports 256 distinct vectors.
 */
 
#define CPU_INTERRUPT_NUMBER_OF_VECTORS      256
#define CPU_INTERRUPT_MAXIMUM_VECTOR_NUMBER  (CPU_INTERRUPT_NUMBER_OF_VECTORS - 1)
 
/*
 *  Minimum size of a thread's stack.
 */
 
#define CPU_STACK_MINIMUM_SIZE          1024
 
/*
 *  i386 is pretty tolerant of alignment.  Just put things on 4 byte boundaries.
 */
 
#define CPU_ALIGNMENT                    4
#define CPU_HEAP_ALIGNMENT               CPU_ALIGNMENT
#define CPU_PARTITION_ALIGNMENT          CPU_ALIGNMENT
 
/*
 *  On i386 thread stacks require no further alignment after allocation
 *  from the Workspace.
 */
 
#define CPU_STACK_ALIGNMENT             0
 
/* macros */
 
/*
 *  ISR handler macros
 *
 *  These macros perform the following functions:
 *     + disable all maskable CPU interrupts
 *     + restore previous interrupt level (enable)
 *     + temporarily restore interrupts (flash)
 *     + set a particular level
 */
 
#define _CPU_ISR_Disable( _level ) i386_disable_interrupts( _level )
 
#define _CPU_ISR_Enable( _level )  i386_enable_interrupts( _level )
 
#define _CPU_ISR_Flash( _level )   i386_flash_interrupts( _level )
 
#define _CPU_ISR_Set_level( _new_level ) \
  { \
    if ( _new_level ) asm volatile ( "cli" ); \
    else              asm volatile ( "sti" ); \
  }
 
unsigned32 _CPU_ISR_Get_level( void );
 
/* end of ISR handler macros */
 
/*
 *  Context handler macros
 *
 *  These macros perform the following functions:
 *     + initialize a context area
 *     + restart the current thread
 *     + calculate the initial pointer into a FP context area
 *     + initialize an FP context area
 */
 
#define CPU_EFLAGS_INTERRUPTS_ON  0x00003202
#define CPU_EFLAGS_INTERRUPTS_OFF 0x00003002
 
#define _CPU_Context_Initialize( _the_context, _stack_base, _size, \
                                   _isr, _entry_point, _is_fp ) \
  do { \
    unsigned32 _stack; \
    \
    if ( (_isr) ) (_the_context)->eflags = CPU_EFLAGS_INTERRUPTS_OFF; \
    else          (_the_context)->eflags = CPU_EFLAGS_INTERRUPTS_ON; \
    \
    _stack = ((unsigned32)(_stack_base)) + (_size) - 4; \
    \
    *((proc_ptr *)(_stack)) = (_entry_point); \
    (_the_context)->ebp     = (void *) _stack; \
    (_the_context)->esp     = (void *) _stack; \
  } while (0)
 
#define _CPU_Context_Restart_self( _the_context ) \
   _CPU_Context_restore( (_the_context) );
 
#define _CPU_Context_Fp_start( _base, _offset ) \
   ( (void *) _Addresses_Add_offset( (_base), (_offset) ) )
 
#define _CPU_Context_Initialize_fp( _fp_area ) \
  { \
    unsigned32 *_source      = (unsigned32 *) &_CPU_Null_fp_context; \
    unsigned32 *_destination = *(_fp_area); \
    unsigned32  _index; \
    \
    for ( _index=0 ; _index < CPU_CONTEXT_FP_SIZE/4 ; _index++ ) \
      *_destination++ = *_source++; \
  }
 
/* end of Context handler macros */
 
/*
 *  Fatal Error manager macros
 *
 *  These macros perform the following functions:
 *    + disable interrupts and halt the CPU
 */
 
#define _CPU_Fatal_halt( _error ) \
  { \
    asm volatile ( "cli ; \
                    movl %0,%%eax ; \
                    hlt" \
                    : "=r" ((_error)) : "0" ((_error)) \
    ); \
  }
 
/* end of Fatal Error manager macros */
 
/*
 *  Bitfield handler macros
 *
 *  These macros perform the following functions:
 *     + scan for the highest numbered (MSB) set in a 16 bit bitfield
 */
 
#define CPU_USE_GENERIC_BITFIELD_CODE FALSE
#define CPU_USE_GENERIC_BITFIELD_DATA FALSE
 
#define _CPU_Bitfield_Find_first_bit( _value, _output ) \
  { \
    register unsigned16 __value_in_register = (_value); \
    \
    _output = 0; \
    \
    asm volatile ( "bsfw    %0,%1 " \
                    : "=r" (__value_in_register), "=r" (_output) \
                    : "0"  (__value_in_register), "1"  (_output) \
    ); \
  }
 
/* end of Bitfield handler macros */
 
/*
 *  Priority handler macros
 *
 *  These macros perform the following functions:
 *    + return a mask with the bit for this major/minor portion of
 *      of thread priority set.
 *    + translate the bit number returned by "Bitfield_find_first_bit"
 *      into an index into the thread ready chain bit maps
 */
 
#define _CPU_Priority_Mask( _bit_number ) \
  ( 1 << (_bit_number) )
 
#define _CPU_Priority_bits_index( _priority ) \
  (_priority)
 
/* functions */
 
/*
 *  _CPU_Initialize
 *
 *  This routine performs CPU dependent initialization.
 */
 
void _CPU_Initialize(
  rtems_cpu_table  *cpu_table,
  void      (*thread_dispatch)
);
 
/*
 *  _CPU_ISR_install_raw_handler
 *
 *  This routine installs a "raw" interrupt handler directly into the 
 *  processor's vector table.
 */
 
void _CPU_ISR_install_raw_handler(
  unsigned32  vector,
  proc_ptr    new_handler,
  proc_ptr   *old_handler
);
 
/*
 *  _CPU_ISR_install_vector
 *
 *  This routine installs an interrupt vector.
 */
 
void _CPU_ISR_install_vector(
  unsigned32  vector,
  proc_ptr    new_handler,
  proc_ptr   *old_handler
);
 
/*
 *  _CPU_Thread_Idle_body
 *
 *  Use the halt instruction of low power mode of a particular i386 model.
 */
 
#if (CPU_PROVIDES_IDLE_THREAD_BODY == TRUE)
 
void _CPU_Thread_Idle_body( void );
 
#endif /* CPU_PROVIDES_IDLE_THREAD_BODY */
 
/*
 *  _CPU_Context_switch
 *
 *  This routine switches from the run context to the heir context.
 */
 
void _CPU_Context_switch(
  Context_Control  *run,
  Context_Control  *heir
);
 
/*
 *  _CPU_Context_restore
 *
 *  This routine is generally used only to restart self in an
 *  efficient manner and avoid stack conflicts.
 */
 
void _CPU_Context_restore(
  Context_Control *new_context
);
 
/*
 *  _CPU_Context_save_fp
 *
 *  This routine saves the floating point context passed to it.
 */
 
void _CPU_Context_save_fp(
  void **fp_context_ptr
);
 
/*
 *  _CPU_Context_restore_fp
 *
 *  This routine restores the floating point context passed to it.
 */
 
void _CPU_Context_restore_fp(
  void **fp_context_ptr
);
 
#ifdef __cplusplus
}
#endif
 
#endif
/* end of include file */
 

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