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/*  cpu_asm.s
 *
 *  This file contains all assembly code for the MC68020 implementation
 *  of RTEMS.
 *
 *  COPYRIGHT (c) 1989-2001.
 *  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.
 *
 *  $Id$
 */


#include <asm.h>

        .text

/*  void _CPU_Context_switch( run_context, heir_context )
 *
 *  This routine performs a normal non-FP context.
 */

        .align  4
        .global SYM (_CPU_Context_switch)

.set RUNCONTEXT_ARG,   4                   | save context argument
.set HEIRCONTEXT_ARG,  8                   | restore context argument

SYM (_CPU_Context_switch):
          moval    a7@(RUNCONTEXT_ARG),a0| a0 = running thread context
          movw     sr,d1                 | d1 = status register
          movml    d1-d7/a2-a7,a0@       | save context

          moval    a7@(HEIRCONTEXT_ARG),a0| a0 = heir thread context
restore:  movml    a0@,d1-d7/a2-a7     | restore context
          movw     d1,sr                  | restore status register
          rts

/*PAGE
 *  void __CPU_Context_save_fp_context( &fp_context_ptr )
 *  void __CPU_Context_restore_fp_context( &fp_context_ptr )
 *
 *  These routines are used to context switch a MC68881 or MC68882.
 *
 *  NOTE:  Context save and restore code is based upon the code shown
 *         on page 6-38 of the MC68881/68882 Users Manual (rev 1).
 *
 *         CPU_FP_CONTEXT_SIZE is higher than expected to account for the
 *         -1 pushed at end of this sequence.
 *
 *         Neither of these entries is required if we have software FPU
 *         emulation.  But if we don't have an FPU or emulation, then
 *         we need the stub versions of these routines.
 */

#if (CPU_SOFTWARE_FP == FALSE)

.set FPCONTEXT_ARG,   4                    | save FP context argument

        .align  4
        .global SYM (_CPU_Context_save_fp)
SYM (_CPU_Context_save_fp):
#if ( M68K_HAS_FPU == 1 )
        moval    a7@(FPCONTEXT_ARG),a1    | a1 = &ptr to context area
        moval    a1@,a0                   | a0 = Save context area
        fsave    a0@-                     | save 68881/68882 state frame
        tstb     a0@                      | check for a null frame
        beq.b    nosv                     | Yes, skip save of user model
        fmovem   fp0-fp7,a0@-             | save data registers (fp0-fp7)
        fmovem   fpc/fps/fpi,a0@-         | and save control registers
        movl     #-1,a0@-                 | place not-null flag on stack
nosv:   movl     a0,a1@                   | save pointer to saved context
#endif
        rts

        .align  4
        .global SYM (_CPU_Context_restore_fp)
SYM (_CPU_Context_restore_fp):
#if ( M68K_HAS_FPU == 1 )
        moval    a7@(FPCONTEXT_ARG),a1    | a1 = &ptr to context area
        moval    a1@,a0                   | a0 = address of saved context
        tstb     a0@                      | Null context frame?
        beq.b    norst                    | Yes, skip fp restore
        addql    #4,a0                    | throwaway non-null flag
        fmovem   a0@+,fpc/fps/fpi         | restore control registers
        fmovem   a0@+,fp0-fp7             | restore data regs (fp0-fp7)
norst:  frestore a0@+                     | restore the fp state frame
        movl     a0,a1@                   | save pointer to saved context
#endif
        rts
#endif

/*PAGE
 *  void _ISR_Handler()
 *
 *  This routine provides the RTEMS interrupt management.
 *
 *  NOTE:
 *    Upon entry, the master stack will contain an interrupt stack frame
 *    back to the interrupted thread and the interrupt stack will contain
 *    a throwaway interrupt stack frame.  If dispatching is enabled, and this
 *    is the outer most interrupt, and a context switch is necessary or
 *    the current thread has pending signals, then set up the master stack to
 *    transfer control to the interrupt dispatcher.
 */

#if ( M68K_COLDFIRE_ARCH == 1 )
.set SR_OFFSET,    2                     | Status register offset
.set PC_OFFSET,    4                     | Program Counter offset
.set FVO_OFFSET,   0                     | Format/vector offset
#elif ( M68K_HAS_VBR == 1)
.set SR_OFFSET,    0                     | Status register offset
.set PC_OFFSET,    2                     | Program Counter offset
.set FVO_OFFSET,   6                     | Format/vector offset
#else
.set SR_OFFSET,    2                     | Status register offset
.set PC_OFFSET,    4                     | Program Counter offset
.set FVO_OFFSET,   0                     | Format/vector offset placed in the stack
#endif /* M68K_HAS_VBR */
 
.set SAVED,        16                    | space for saved registers

        .align  4
        .global SYM (_ISR_Handler)

SYM (_ISR_Handler):
        addql   #1,SYM (_Thread_Dispatch_disable_level) | disable multitasking
#if ( M68K_COLDFIRE_ARCH == 0 )
        moveml  d0-d1/a0-a1,a7@-         | save d0-d1,a0-a1
#else
	lea	a7@(-SAVED),a7
	movm.l  d0-d1/a0-a1,a7@		 | save d0-d1,a0-a1
#endif
	movew   a7@(SAVED+FVO_OFFSET),d0 | d0 = F/VO
	andl    #0x0ffc,d0               | d0 = vector offset in vbr


#if ( CPU_HAS_SOFTWARE_INTERRUPT_STACK == 1 )
	movel	_CPU_Interrupt_stack_high,a0	| a0 now point just above interrupt stack
	cmpl	_CPU_Interrupt_stack_low,a7	| stack below interrupt stack?
	bcs.b	1f			| yes, switch to interrupt stack
	cmpl	a0,a7			| stack above interrupt stack?
	bcs.b	2f			| no, do not switch stacks
1:
	movel	a7,a1			| copy task stack pointer
	movel	a0,a7			| switch to interrupt stack
	movel	a1,a7@-			| store task stack pointer on interrupt stack
2:
#endif /* CPU_HAS_SOFTWARE_INTERRUPT_STACK == 1 */

        movel   SYM (_ISR_Vector_table),a0 | a0= base of RTEMS table
#if ( M68K_HAS_PREINDEXING == 1 )
        movel   (a0,d0:w:1),a0           | a0 = address of user routine
#else
        addal   d0,a0                    | a0 = address of vector
        movel   (a0),a0                  | a0 = address of user routine
#endif

        lsrl    #2,d0                    | d0 = vector number
        movel   d0,a7@-                  | push vector number
        jbsr    a0@                      | invoke the user ISR
        addql   #4,a7                    | remove vector number

#if ( CPU_HAS_SOFTWARE_INTERRUPT_STACK == 1 )
	movel	_CPU_Interrupt_stack_high,a0
	subql	#4,a0
	cmpl	a0,a7			| At top of interrupt stack?
	bne.b	1f			| No, do not restore task stack pointer
	movel	(a7),a7			| Restore task stack pointer
1:
#endif /* CPU_HAS_SOFTWARE_INTERRUPT_STACK == 1 */

        subql   #1,SYM (_Thread_Dispatch_disable_level)
                                         | unnest multitasking
        bne.b    exit                    | If dispatch disabled, exit

#if ( M68K_HAS_SEPARATE_STACKS == 1 )
        movew   #0xf000,d0               | isolate format nibble
        andw    a7@(SAVED+FVO_OFFSET),d0 | get F/VO
        cmpiw   #0x1000,d0               | is it a throwaway isf?
        bne.b   exit                     | NOT outer level, so branch
#else
/*
 * If we have a CPU which allows a higher-priority interrupt to preempt a
 * lower priority handler before the lower-priority handler can increment
 * _Thread_Dispatch_disable_level then we must check the PC on the stack to
 * see if it is _ISR_Handler.  If it is we have the case of nesting interrupts
 * without the dispatch level being incremented.
 */
  #if ( M68K_COLDFIRE_ARCH == 0 && M68K_MC68060_ARCH == 0 )
        cmpl    #_ISR_Handler,a7@(SAVED+PC_OFFSET)
        beq.b   exit        
  #endif
#endif
        tstl    SYM (_Context_Switch_necessary)
                                         | Is thread switch necessary?
        bne.b   bframe                   | Yes, invoke dispatcher

        tstl    SYM (_ISR_Signals_to_thread_executing)
                                         | signals sent to Run_thread
                                         |   while in interrupt handler?
        beq.b   exit                     | No, then exit

bframe: clrl    SYM (_ISR_Signals_to_thread_executing)
                                         | If sent, will be processed
#if ( M68K_HAS_SEPARATE_STACKS == 1 )
        movec   msp,a0                   | a0 = master stack pointer
        movew   #0,a0@-                  | push format word
        movel   #SYM(_ISR_Dispatch),a0@- | push return addr
        movew   a0@(6),a0@-              | push saved sr
        movec   a0,msp                   | set master stack pointer
#else
        jsr SYM (_Thread_Dispatch)       | Perform context switch
#endif

#if ( M68K_COLDFIRE_ARCH == 0 )
exit:   moveml  a7@+,d0-d1/a0-a1	 | restore d0-d1,a0-a1
#else
exit:	moveml	a7@,d0-d1/a0-a1		 | restore d0-d1,a0-a1
	lea     a7@(SAVED),a7
#endif

#if ( M68K_HAS_VBR == 0 )
        addql   #2,a7                    | pop format/id
#endif /* M68K_HAS_VBR */
        rte                              | return to thread
                                         |   OR _Isr_dispatch

/*PAGE
 *  void _ISR_Dispatch()
 *
 *  Entry point from the outermost interrupt service routine exit.
 *  The current stack is the supervisor mode stack if this processor
 *  has separate stacks.
 *
 *    1.  save all registers not preserved across C calls.
 *    2.  invoke the _Thread_Dispatch routine to switch tasks
 *        or a signal to the currently executing task.
 *    3.  restore all registers not preserved across C calls.
 *    4.  return from interrupt
 */

        .global SYM (_ISR_Dispatch)
SYM (_ISR_Dispatch):
#if ( M68K_COLDFIRE_ARCH == 0 )
        movml   d0-d1/a0-a1,a7@-
        jsr     SYM (_Thread_Dispatch)
        movml   a7@+,d0-d1/a0-a1
#else
	lea     a7@(-SAVED),a7
	movml   d0-d1/a0-a1,a7@
	jsr     SYM (_Thread_Dispatch)
	movml   a7@,d0-d1/a0-a1
	lea     a7@(SAVED),a7
#endif

#if ( M68K_HAS_VBR == 0 )
        addql   #2,a7                    | pop format/id
#endif /* M68K_HAS_VBR */
        rte