arch/cris/arch-v32/kernel/kgdb_asm.S - maze/linux - Git at Google

 /*
  *  Copyright (C) 2004 Axis Communications AB
  *
  * Code for handling break 8, hardware breakpoint, single step, and serial
  * port exceptions for kernel debugging purposes.
  */

 #include <asm/arch/hwregs/intr_vect.h>

 	;; Exported functions.
 	.globl kgdb_handle_exception

 kgdb_handle_exception:

 ;; Create a register image of the caller.
 ;;
 ;; First of all, save the ACR on the stack since we need it for address calculations.
 ;; We put it into the register struct later.

   subq     4, $sp
   move.d   $acr, [$sp]

 ;; Now we are free to use ACR all we want.
 ;; If we were running this handler with interrupts on, we would have to be careful
 ;; to save and restore CCS manually, but since we aren't we treat it like every other
 ;; register.

   move.d   reg,  $acr
   move.d   $r0,  [$acr]        ; Save R0 (start of register struct)
   addq     4,    $acr
   move.d   $r1,  [$acr]        ; Save R1
   addq     4,    $acr
   move.d   $r2,  [$acr]        ; Save R2
   addq     4,    $acr
   move.d   $r3,  [$acr]        ; Save R3
   addq     4,    $acr
   move.d   $r4,  [$acr]        ; Save R4
   addq     4,    $acr
   move.d   $r5,  [$acr]        ; Save R5
   addq     4,    $acr
   move.d   $r6,  [$acr]        ; Save R6
   addq     4,    $acr
   move.d   $r7,  [$acr]        ; Save R7
   addq     4,    $acr
   move.d   $r8,  [$acr]        ; Save R8
   addq     4,    $acr
   move.d   $r9,  [$acr]        ; Save R9
   addq     4,    $acr
   move.d   $r10, [$acr]        ; Save R10
   addq     4,    $acr
   move.d   $r11, [$acr]        ; Save R11
   addq     4,    $acr
   move.d   $r12, [$acr]        ; Save R12
   addq     4,    $acr
   move.d   $r13, [$acr]        ; Save R13
   addq     4,    $acr
   move.d   $sp,  [$acr]        ; Save SP (R14)
   addq     4,    $acr

   ;; The ACR register is already saved on the stack, so pop it from there.
   move.d   [$sp],$r0
   move.d   $r0,  [$acr]
   addq     4,    $acr

   move     $bz,  [$acr]
   addq     1,    $acr
   move     $vr,  [$acr]
   addq     1,    $acr
   move     $pid, [$acr]
   addq     4,    $acr
   move     $srs, [$acr]
   addq     1,    $acr
   move     $wz,  [$acr]
   addq     2,    $acr
   move     $exs, [$acr]
   addq     4,    $acr
   move     $eda, [$acr]
   addq     4,    $acr
   move     $mof, [$acr]
   addq     4,    $acr
   move     $dz,  [$acr]
   addq     4,    $acr
   move     $ebp, [$acr]
   addq     4,    $acr
   move     $erp, [$acr]
   addq     4,    $acr
   move     $srp, [$acr]
   addq     4,    $acr
   move     $nrp, [$acr]
   addq     4,    $acr
   move     $ccs, [$acr]
   addq     4,    $acr
   move     $usp, [$acr]
   addq     4,    $acr
   move     $spc, [$acr]
   addq     4,     $acr

 ;; Skip the pseudo-PC.
   addq     4,     $acr

 ;; Save the support registers in bank 0 - 3.
   clear.d $r1 ; Bank counter
   move.d  sreg, $acr

 ;; Bank 0
   move    $r1,  $srs
   nop
   nop
   nop
   move    $s0,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s1,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s2,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s3,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s4,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s5,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s6,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s7,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s8,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s9,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s10,  $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s11,  $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s12,  $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr

   ;; Nothing in S13 - S15, bank 0
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr

 ;; Bank 1 and bank 2 have the same layout, hence the loop.
   addq    1, $r1
 1:
   move    $r1,  $srs
   nop
   nop
   nop
   move    $s0,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s1,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s2,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s3,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s4,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s5,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s6,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr

   ;; Nothing in S7 - S15, bank 1 and 2
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr
   clear.d [$acr]
   addq    4,     $acr

   addq 1, $r1
   cmpq 3, $r1
   bne 1b
   nop

 ;; Bank 3
   move    $r1,  $srs
   nop
   nop
   nop
   move    $s0,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s1,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s2,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s3,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s4,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s5,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s6,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s7,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s8,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s9,   $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s10,  $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s11,  $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s12,  $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s13,  $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
   move    $s14,  $r0
   move.d  $r0,   [$acr]
   addq    4,     $acr
 ;; Nothing in S15, bank 3
   clear.d [$acr]
   addq    4,     $acr

 ;; Check what got us here: get IDX field of EXS.
   move $exs,    $r10
   and.d 0xff00, $r10
   lsrq 8,       $r10
 #if defined(CONFIG_ETRAX_KGDB_PORT0)
   cmp.d SER0_INTR_VECT,   $r10 ; IRQ for serial port 0
   beq sigint
   nop
 #elif defined(CONFIG_ETRAX_KGDB_PORT1)
   cmp.d SER1_INTR_VECT,   $r10 ; IRQ for serial port 1
   beq sigint
   nop
 #elif defined(CONFIG_ETRAX_KGDB_PORT2)
   cmp.d SER2_INTR_VECT,   $r10 ; IRQ for serial port 2
   beq sigint
   nop
 #elif defined(CONFIG_ETRAX_KGDB_PORT3)
   cmp.d SER3_INTR_VECT,   $r10 ; IRQ for serial port 3
   beq sigint
   nop
 #endif
 ;; Multiple interrupt must be due to serial break.
   cmp.d 0x30,   $r10 ; Multiple interrupt
   beq sigint
   nop
 ;; Neither of those? Then it's a sigtrap.
   ba handle_comm
   moveq 5, $r10      ; Set SIGTRAP (delay slot)

 sigint:
   ;; Serial interrupt; get character
   jsr getDebugChar
   nop                ; Delay slot
   cmp.b 3, $r10      ; \003 (Ctrl-C)?
   bne return         ; No, get out of here
   nop
   moveq 2, $r10      ; Set SIGINT

 ;;
 ;; Handle the communication
 ;;
 handle_comm:
   move.d   internal_stack+1020, $sp ; Use the internal stack which grows upwards
   jsr      handle_exception         ; Interactive routine
   nop

 ;;
 ;; Return to the caller
 ;;
 return:

 ;; First of all, write the support registers.
   clear.d $r1 ; Bank counter
   move.d  sreg, $acr

 ;; Bank 0
   move    $r1,  $srs
   nop
   nop
   nop
   move.d  [$acr], $r0
   move    $r0,    $s0
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s1
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s2
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s3
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s4
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s5
   addq    4,      $acr

 ;; Nothing in S6 - S7, bank 0.
   addq    4,      $acr
   addq    4,      $acr

   move.d  [$acr], $r0
   move    $r0,    $s8
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s9
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s10
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s11
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s12
   addq    4,      $acr

 ;; Nothing in S13 - S15, bank 0
   addq    4,      $acr
   addq    4,      $acr
   addq    4,      $acr

 ;; Bank 1 and bank 2 have the same layout, hence the loop.
   addq    1, $r1
 2:
   move    $r1,  $srs
   nop
   nop
   nop
   move.d  [$acr], $r0
   move    $r0,    $s0
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s1
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s2
   addq    4,      $acr

 ;; S3 (MM_CAUSE) is read-only.
   addq    4,      $acr

   move.d  [$acr], $r0
   move    $r0,    $s4
   addq    4,      $acr

 ;; FIXME: Actually write S5/S6? (Affects MM_CAUSE.)
   addq    4,      $acr
   addq    4,      $acr

 ;; Nothing in S7 - S15, bank 1 and 2
   addq    4,      $acr
   addq    4,      $acr
   addq    4,      $acr
   addq    4,      $acr
   addq    4,      $acr
   addq    4,      $acr
   addq    4,      $acr
   addq    4,      $acr
   addq    4,      $acr

   addq 1, $r1
   cmpq 3, $r1
   bne 2b
   nop

 ;; Bank 3
   move    $r1,  $srs
   nop
   nop
   nop
   move.d  [$acr], $r0
   move    $r0,    $s0
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s1
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s2
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s3
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s4
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s5
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s6
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s7
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s8
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s9
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s10
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s11
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s12
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s13
   addq    4,      $acr
   move.d  [$acr], $r0
   move    $r0,    $s14
   addq    4,      $acr

 ;; Nothing in S15, bank 3
   addq    4,      $acr

 ;; Now, move on to the regular register restoration process.

    move.d  reg,    $acr   ; Reset ACR to point at the beginning of the register image
    move.d  [$acr], $r0    ; Restore R0
    addq    4,      $acr
    move.d  [$acr], $r1    ; Restore R1
    addq    4,      $acr
    move.d  [$acr], $r2    ; Restore R2
    addq    4,      $acr
    move.d  [$acr], $r3    ; Restore R3
    addq    4,      $acr
    move.d  [$acr], $r4    ; Restore R4
    addq    4,      $acr
    move.d  [$acr], $r5    ; Restore R5
    addq    4,      $acr
    move.d  [$acr], $r6    ; Restore R6
    addq    4,      $acr
    move.d  [$acr], $r7    ; Restore R7
    addq    4,      $acr
    move.d  [$acr], $r8    ; Restore R8
    addq    4,      $acr
    move.d  [$acr], $r9    ; Restore R9
    addq    4,      $acr
    move.d  [$acr], $r10   ; Restore R10
    addq    4,      $acr
    move.d  [$acr], $r11   ; Restore R11
    addq    4,      $acr
    move.d  [$acr], $r12   ; Restore R12
    addq    4,      $acr
    move.d  [$acr], $r13   ; Restore R13

 ;;
 ;; We restore all registers, even though some of them probably haven't changed.
 ;;

    addq    4,      $acr
    move.d  [$acr], $sp    ; Restore SP (R14)

    ;; ACR cannot be restored just yet.
    addq    8,      $acr

    ;; Skip BZ, VR.
    addq    2,      $acr

    move    [$acr], $pid   ; Restore PID
    addq    4,      $acr
    move    [$acr], $srs   ; Restore SRS
    nop
    nop
    nop
    addq    1,      $acr

    ;; Skip WZ.
    addq    2,      $acr

    move    [$acr], $exs    ; Restore EXS.
    addq    4,      $acr
    move    [$acr], $eda    ; Restore EDA.
    addq    4,      $acr
    move    [$acr], $mof    ; Restore MOF.

    ;; Skip DZ.
    addq    8,      $acr

    move    [$acr], $ebp    ; Restore EBP.
    addq    4,      $acr
    move    [$acr], $erp    ; Restore ERP.
    addq    4,      $acr
    move    [$acr], $srp    ; Restore SRP.
    addq    4,      $acr
    move    [$acr], $nrp    ; Restore NRP.
    addq    4,      $acr
    move    [$acr], $ccs    ; Restore CCS like an ordinary register.
    addq    4,      $acr
    move    [$acr], $usp    ; Restore USP
    addq    4,      $acr
    move    [$acr], $spc    ; Restore SPC
                            ; No restoration of pseudo-PC of course.

    move.d  reg,    $acr    ; Reset ACR to point at the beginning of the register image
    add.d   15*4,   $acr
    move.d  [$acr], $acr    ; Finally, restore ACR.
    rete                    ; Same as jump ERP
    rfe                     ; Shifts CCS
	/*
	* Copyright (C) 2004 Axis Communications AB
	*
	* Code for handling break 8, hardware breakpoint, single step, and serial
	* port exceptions for kernel debugging purposes.
	*/

	#include <asm/arch/hwregs/intr_vect.h>

	;; Exported functions.
	.globl kgdb_handle_exception

	kgdb_handle_exception:

	;; Create a register image of the caller.
	;;
	;; First of all, save the ACR on the stack since we need it for address calculations.
	;; We put it into the register struct later.

	subq 4, $sp
	move.d $acr, [$sp]

	;; Now we are free to use ACR all we want.
	;; If we were running this handler with interrupts on, we would have to be careful
	;; to save and restore CCS manually, but since we aren't we treat it like every other
	;; register.

	move.d reg, $acr
	move.d $r0, [$acr] ; Save R0 (start of register struct)
	addq 4, $acr
	move.d $r1, [$acr] ; Save R1
	addq 4, $acr
	move.d $r2, [$acr] ; Save R2
	addq 4, $acr
	move.d $r3, [$acr] ; Save R3
	addq 4, $acr
	move.d $r4, [$acr] ; Save R4
	addq 4, $acr
	move.d $r5, [$acr] ; Save R5
	addq 4, $acr
	move.d $r6, [$acr] ; Save R6
	addq 4, $acr
	move.d $r7, [$acr] ; Save R7
	addq 4, $acr
	move.d $r8, [$acr] ; Save R8
	addq 4, $acr
	move.d $r9, [$acr] ; Save R9
	addq 4, $acr
	move.d $r10, [$acr] ; Save R10
	addq 4, $acr
	move.d $r11, [$acr] ; Save R11
	addq 4, $acr
	move.d $r12, [$acr] ; Save R12
	addq 4, $acr
	move.d $r13, [$acr] ; Save R13
	addq 4, $acr
	move.d $sp, [$acr] ; Save SP (R14)
	addq 4, $acr

	;; The ACR register is already saved on the stack, so pop it from there.
	move.d [$sp],$r0
	move.d $r0, [$acr]
	addq 4, $acr

	move $bz, [$acr]
	addq 1, $acr
	move $vr, [$acr]
	addq 1, $acr
	move $pid, [$acr]
	addq 4, $acr
	move $srs, [$acr]
	addq 1, $acr
	move $wz, [$acr]
	addq 2, $acr
	move $exs, [$acr]
	addq 4, $acr
	move $eda, [$acr]
	addq 4, $acr
	move $mof, [$acr]
	addq 4, $acr
	move $dz, [$acr]
	addq 4, $acr
	move $ebp, [$acr]
	addq 4, $acr
	move $erp, [$acr]
	addq 4, $acr
	move $srp, [$acr]
	addq 4, $acr
	move $nrp, [$acr]
	addq 4, $acr
	move $ccs, [$acr]
	addq 4, $acr
	move $usp, [$acr]
	addq 4, $acr
	move $spc, [$acr]
	addq 4, $acr

	;; Skip the pseudo-PC.
	addq 4, $acr

	;; Save the support registers in bank 0 - 3.
	clear.d $r1 ; Bank counter
	move.d sreg, $acr

	;; Bank 0
	move $r1, $srs
	nop
	nop
	nop
	move $s0, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s1, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s2, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s3, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s4, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s5, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s6, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s7, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s8, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s9, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s10, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s11, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s12, $r0
	move.d $r0, [$acr]
	addq 4, $acr

	;; Nothing in S13 - S15, bank 0
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr

	;; Bank 1 and bank 2 have the same layout, hence the loop.
	addq 1, $r1
	1:
	move $r1, $srs
	nop
	nop
	nop
	move $s0, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s1, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s2, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s3, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s4, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s5, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s6, $r0
	move.d $r0, [$acr]
	addq 4, $acr

	;; Nothing in S7 - S15, bank 1 and 2
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr
	clear.d [$acr]
	addq 4, $acr

	addq 1, $r1
	cmpq 3, $r1
	bne 1b
	nop

	;; Bank 3
	move $r1, $srs
	nop
	nop
	nop
	move $s0, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s1, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s2, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s3, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s4, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s5, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s6, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s7, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s8, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s9, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s10, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s11, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s12, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s13, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	move $s14, $r0
	move.d $r0, [$acr]
	addq 4, $acr
	;; Nothing in S15, bank 3
	clear.d [$acr]
	addq 4, $acr

	;; Check what got us here: get IDX field of EXS.
	move $exs, $r10
	and.d 0xff00, $r10
	lsrq 8, $r10
	#if defined(CONFIG_ETRAX_KGDB_PORT0)
	cmp.d SER0_INTR_VECT, $r10 ; IRQ for serial port 0
	beq sigint
	nop
	#elif defined(CONFIG_ETRAX_KGDB_PORT1)
	cmp.d SER1_INTR_VECT, $r10 ; IRQ for serial port 1
	beq sigint
	nop
	#elif defined(CONFIG_ETRAX_KGDB_PORT2)
	cmp.d SER2_INTR_VECT, $r10 ; IRQ for serial port 2
	beq sigint
	nop
	#elif defined(CONFIG_ETRAX_KGDB_PORT3)
	cmp.d SER3_INTR_VECT, $r10 ; IRQ for serial port 3
	beq sigint
	nop
	#endif
	;; Multiple interrupt must be due to serial break.
	cmp.d 0x30, $r10 ; Multiple interrupt
	beq sigint
	nop
	;; Neither of those? Then it's a sigtrap.
	ba handle_comm
	moveq 5, $r10 ; Set SIGTRAP (delay slot)

	sigint:
	;; Serial interrupt; get character
	jsr getDebugChar
	nop ; Delay slot
	cmp.b 3, $r10 ; \003 (Ctrl-C)?
	bne return ; No, get out of here
	nop
	moveq 2, $r10 ; Set SIGINT

	;;
	;; Handle the communication
	;;
	handle_comm:
	move.d internal_stack+1020, $sp ; Use the internal stack which grows upwards
	jsr handle_exception ; Interactive routine
	nop

	;;
	;; Return to the caller
	;;
	return:

	;; First of all, write the support registers.
	clear.d $r1 ; Bank counter
	move.d sreg, $acr

	;; Bank 0
	move $r1, $srs
	nop
	nop
	nop
	move.d [$acr], $r0
	move $r0, $s0
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s1
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s2
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s3
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s4
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s5
	addq 4, $acr

	;; Nothing in S6 - S7, bank 0.
	addq 4, $acr
	addq 4, $acr

	move.d [$acr], $r0
	move $r0, $s8
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s9
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s10
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s11
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s12
	addq 4, $acr

	;; Nothing in S13 - S15, bank 0
	addq 4, $acr
	addq 4, $acr
	addq 4, $acr

	;; Bank 1 and bank 2 have the same layout, hence the loop.
	addq 1, $r1
	2:
	move $r1, $srs
	nop
	nop
	nop
	move.d [$acr], $r0
	move $r0, $s0
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s1
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s2
	addq 4, $acr

	;; S3 (MM_CAUSE) is read-only.
	addq 4, $acr

	move.d [$acr], $r0
	move $r0, $s4
	addq 4, $acr

	;; FIXME: Actually write S5/S6? (Affects MM_CAUSE.)
	addq 4, $acr
	addq 4, $acr

	;; Nothing in S7 - S15, bank 1 and 2
	addq 4, $acr
	addq 4, $acr
	addq 4, $acr
	addq 4, $acr
	addq 4, $acr
	addq 4, $acr
	addq 4, $acr
	addq 4, $acr
	addq 4, $acr

	addq 1, $r1
	cmpq 3, $r1
	bne 2b
	nop

	;; Bank 3
	move $r1, $srs
	nop
	nop
	nop
	move.d [$acr], $r0
	move $r0, $s0
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s1
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s2
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s3
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s4
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s5
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s6
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s7
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s8
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s9
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s10
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s11
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s12
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s13
	addq 4, $acr
	move.d [$acr], $r0
	move $r0, $s14
	addq 4, $acr

	;; Nothing in S15, bank 3
	addq 4, $acr

	;; Now, move on to the regular register restoration process.

	move.d reg, $acr ; Reset ACR to point at the beginning of the register image
	move.d [$acr], $r0 ; Restore R0
	addq 4, $acr
	move.d [$acr], $r1 ; Restore R1
	addq 4, $acr
	move.d [$acr], $r2 ; Restore R2
	addq 4, $acr
	move.d [$acr], $r3 ; Restore R3
	addq 4, $acr
	move.d [$acr], $r4 ; Restore R4
	addq 4, $acr
	move.d [$acr], $r5 ; Restore R5
	addq 4, $acr
	move.d [$acr], $r6 ; Restore R6
	addq 4, $acr
	move.d [$acr], $r7 ; Restore R7
	addq 4, $acr
	move.d [$acr], $r8 ; Restore R8
	addq 4, $acr
	move.d [$acr], $r9 ; Restore R9
	addq 4, $acr
	move.d [$acr], $r10 ; Restore R10
	addq 4, $acr
	move.d [$acr], $r11 ; Restore R11
	addq 4, $acr
	move.d [$acr], $r12 ; Restore R12
	addq 4, $acr
	move.d [$acr], $r13 ; Restore R13

	;;
	;; We restore all registers, even though some of them probably haven't changed.
	;;

	addq 4, $acr
	move.d [$acr], $sp ; Restore SP (R14)

	;; ACR cannot be restored just yet.
	addq 8, $acr

	;; Skip BZ, VR.
	addq 2, $acr

	move [$acr], $pid ; Restore PID
	addq 4, $acr
	move [$acr], $srs ; Restore SRS
	nop
	nop
	nop
	addq 1, $acr

	;; Skip WZ.
	addq 2, $acr

	move [$acr], $exs ; Restore EXS.
	addq 4, $acr
	move [$acr], $eda ; Restore EDA.
	addq 4, $acr
	move [$acr], $mof ; Restore MOF.

	;; Skip DZ.
	addq 8, $acr

	move [$acr], $ebp ; Restore EBP.
	addq 4, $acr
	move [$acr], $erp ; Restore ERP.
	addq 4, $acr
	move [$acr], $srp ; Restore SRP.
	addq 4, $acr
	move [$acr], $nrp ; Restore NRP.
	addq 4, $acr
	move [$acr], $ccs ; Restore CCS like an ordinary register.
	addq 4, $acr
	move [$acr], $usp ; Restore USP
	addq 4, $acr
	move [$acr], $spc ; Restore SPC
	; No restoration of pseudo-PC of course.

	move.d reg, $acr ; Reset ACR to point at the beginning of the register image
	add.d 15*4, $acr
	move.d [$acr], $acr ; Finally, restore ACR.
	rete ; Same as jump ERP
	rfe ; Shifts CCS