[sbcl.git] / src / runtime / hppa-assem.S

#define LANGUAGE_ASSEMBLY

#include "sbcl.h"
#include "lispregs.h"
#include "genesis/closure.h"
#include "genesis/fdefn.h"
#include "genesis/simple-fun.h"
#include "genesis/return-pc.h"
#include "genesis/static-symbols.h"
#include "genesis/funcallable-instance.h"

        .level  2.0
        .text

        .import $global$,data
        .import $$dyncall,MILLICODE
        .import foreign_function_call_active,data
        .import current_control_stack_pointer,data
        .import current_control_frame_pointer,data
        .import current_binding_stack_pointer,data
        .import dynamic_space_free_pointer,data
/*      .import return_from_lisp_function,data */

\f
/*
 * Call-into-lisp
 */

        .export call_into_lisp
call_into_lisp:
        .proc
        .callinfo entry_gr=18,save_rp
        .entry
        /* %arg0=function, %arg1=cfp, %arg2=nargs */

        stw     %rp,-0x14(%sr0,%sp)
        stwm    %r3,0x40(%sr0,%sp)
        stw     %r4,-0x3c(%sr0,%sp)
        stw     %r5,-0x38(%sr0,%sp)
        stw     %r6,-0x34(%sr0,%sp)
        stw     %r7,-0x30(%sr0,%sp)
        stw     %r8,-0x2c(%sr0,%sp)
        stw     %r9,-0x28(%sr0,%sp)
        stw     %r10,-0x24(%sr0,%sp)
        stw     %r11,-0x20(%sr0,%sp)
        stw     %r12,-0x1c(%sr0,%sp)
        stw     %r13,-0x18(%sr0,%sp)
        stw     %r14,-0x14(%sr0,%sp)
        stw     %r15,-0x10(%sr0,%sp)
        stw     %r16,-0xc(%sr0,%sp)
        stw     %r17,-0x8(%sr0,%sp)
        stw     %r18,-0x4(%sr0,%sp)

        /* Clear the descriptor regs, moving in args as approporate. */
        copy    %r0,reg_CODE
        copy    %r0,reg_FDEFN
        copy    %arg0,reg_LEXENV
        zdep    %arg2,29,30,reg_NARGS
        copy    %r0,reg_OCFP
        copy    %r0,reg_LRA
        copy    %r0,reg_A0
        copy    %r0,reg_A1
        copy    %r0,reg_A2
        copy    %r0,reg_A3
        copy    %r0,reg_A4
        copy    %r0,reg_A5
        copy    %r0,reg_L0
        copy    %r0,reg_L1
        copy    %r0,reg_L2

        /* Establish NIL. */
        ldil    L%NIL,reg_NULL
        ldo     R%NIL(reg_NULL),reg_NULL

        /* Turn on pseudo-atomic. */
        ldo     4(%r0),reg_ALLOC

        /* No longer in foreign function call land. */
        addil   L%foreign_function_call_active-$global$,%dp
        stw     %r0,R%foreign_function_call_active-$global$(0,%r1)

        /* Load lisp state. */
        addil   L%dynamic_space_free_pointer-$global$,%dp
        ldw     R%dynamic_space_free_pointer-$global$(0,%r1),%r1
        add     reg_ALLOC,%r1,reg_ALLOC
        addil   L%current_binding_stack_pointer-$global$,%dp
        ldw     R%current_binding_stack_pointer-$global$(0,%r1),reg_BSP
        addil   L%current_control_stack_pointer-$global$,%dp
        ldw     R%current_control_stack_pointer-$global$(0,%r1),reg_CSP
        addil   L%current_control_frame_pointer-$global$,%dp
        ldw     R%current_control_frame_pointer-$global$(0,%r1),reg_OCFP
        copy    %arg1,reg_CFP

        /* End of pseudo-atomic. */
        addit,od        -4,reg_ALLOC,reg_ALLOC

        /* Establish lisp arguments. */
        ldw     0(reg_CFP),reg_A0
        ldw     4(reg_CFP),reg_A1
        ldw     8(reg_CFP),reg_A2
        ldw     12(reg_CFP),reg_A3
        ldw     16(reg_CFP),reg_A4
        ldw     20(reg_CFP),reg_A5

        /* Calculate the LRA. */
  ldil  L%lra-RETURN_PC_RETURN_POINT_OFFSET,reg_LRA
  ldo R%lra-RETURN_PC_RETURN_POINT_OFFSET(reg_LRA),reg_LRA

        /* Indirect the closure */
        ldw     CLOSURE_FUN_OFFSET(0,reg_LEXENV),reg_CODE
  addi  SIMPLE_FUN_CODE_OFFSET,reg_CODE,reg_LIP

#ifdef LISP_FEATURE_HPUX
  /*  Get the stub address, ie assembly-routine return-from-lisp */
  addil   L%return_from_lisp_stub-$global$,%dp
  ldw     R%return_from_lisp_stub-$global$(0,%r1),reg_NL0
  be,n  0(%sr5,reg_NL0)
#else                 
  be,n  0(%sr5,reg_NL0)
#endif

        break   0,0

        .align  8
lra:
  nop /* a few nops because we dont know where we land */
  nop /* the return convention would govern this */
  nop
  nop

        /* Copy CFP (%r4) into someplace else and restore r4. */
        copy    reg_CFP,reg_NL1
  ldw -0x3c(0,%sp),%r4

        /* Copy the return value. */
        copy    reg_A0,%ret0

        /* Turn on pseudo-atomic. */
        addi    4,reg_ALLOC,reg_ALLOC

        /* Store the lisp state. */
        copy    reg_ALLOC,reg_NL0
        depi    0,31,3,reg_NL0
        addil   L%dynamic_space_free_pointer-$global$,%dp
        stw     reg_NL0,R%dynamic_space_free_pointer-$global$(0,%r1)
        addil   L%current_binding_stack_pointer-$global$,%dp
        stw     reg_BSP,R%current_binding_stack_pointer-$global$(0,%r1)
        addil   L%current_control_stack_pointer-$global$,%dp
        stw     reg_CSP,R%current_control_stack_pointer-$global$(0,%r1)
        addil   L%current_control_frame_pointer-$global$,%dp
        stw     reg_NL1,R%current_control_frame_pointer-$global$(0,%r1)

        /* Back in C land.  [CSP is just a handy non-zero value.] */
        addil   L%foreign_function_call_active-$global$,%dp
        stw     reg_CSP,R%foreign_function_call_active-$global$(0,%r1)

        /* Turn off pseudo-atomic and check for traps. */
        addit,od        -4,reg_ALLOC,reg_ALLOC

        ldw     -0x54(%sr0,%sp),%rp
        ldw     -0x4(%sr0,%sp),%r18
        ldw     -0x8(%sr0,%sp),%r17
        ldw     -0xc(%sr0,%sp),%r16
        ldw     -0x10(%sr0,%sp),%r15
        ldw     -0x14(%sr0,%sp),%r14
        ldw     -0x18(%sr0,%sp),%r13
        ldw     -0x1c(%sr0,%sp),%r12
        ldw     -0x20(%sr0,%sp),%r11
        ldw     -0x24(%sr0,%sp),%r10
        ldw     -0x28(%sr0,%sp),%r9
        ldw     -0x2c(%sr0,%sp),%r8
        ldw     -0x30(%sr0,%sp),%r7
        ldw     -0x34(%sr0,%sp),%r6
        ldw     -0x38(%sr0,%sp),%r5
        ldw     -0x3c(%sr0,%sp),%r4
        bv      %r0(%rp)
        ldwm    -0x40(%sr0,%sp),%r3

        /* And thats all. */
        .exit
        .procend

\f
/*
 * Call-into-C
 */

        .export call_into_c
call_into_c:
        /* Set up a lisp stack frame. */
        copy    reg_CFP, reg_OCFP
        copy    reg_CSP, reg_CFP
        addi    32, reg_CSP, reg_CSP
        stw     reg_OCFP, 0(0,reg_CFP) ; save old cfp
        stw     reg_CFP, 4(0,reg_CFP)  ; save old csp
        /* convert raw return PC into a fixnum PC-offset, because we dont
           have ahold of an lra object */
        sub     reg_LIP, reg_CODE, reg_NL5
        addi    3-OTHER_POINTER_LOWTAG, reg_NL5, reg_NL5
        stw     reg_NL5, 8(0,reg_CFP)
        stw     reg_CODE, 0xc(0,reg_CFP)

        /* set pseudo-atomic flag */
        addi    4, reg_ALLOC, reg_ALLOC

        /* Store the lisp state. */
        copy    reg_ALLOC,reg_NL5
        depi    0,31,3,reg_NL5
        addil   L%dynamic_space_free_pointer-$global$,%dp
        stw     reg_NL5,R%dynamic_space_free_pointer-$global$(0,%r1)
        addil   L%current_binding_stack_pointer-$global$,%dp
        stw     reg_BSP,R%current_binding_stack_pointer-$global$(0,%r1)
        addil   L%current_control_stack_pointer-$global$,%dp
        stw     reg_CSP,R%current_control_stack_pointer-$global$(0,%r1)
        addil   L%current_control_frame_pointer-$global$,%dp
        stw     reg_CFP,R%current_control_frame_pointer-$global$(0,%r1)

        /* Back in C land.  [CSP is just a handy non-zero value.] */
        addil   L%foreign_function_call_active-$global$,%dp
        stw     reg_CSP,R%foreign_function_call_active-$global$(0,%r1)

        /* Turn off pseudo-atomic and check for traps. */
        addit,od        -4,reg_ALLOC,reg_ALLOC

        /* in order to be able to call incrementally linked (ld -A) functions,
           we have to do some mild trickery here */
        copy reg_CFUNC, %r22
        bl      $$dyncall,%r31
        copy    %r31, %r2
call_into_c_return:
        /* Clear the callee saves descriptor regs. */
        copy    %r0, reg_A5
        copy    %r0, reg_L0
        copy    %r0, reg_L1
        copy    %r0, reg_L2

        /* Turn on pseudo-atomic. */
        ldi     4, reg_ALLOC

        /* Turn off foreign function call. */
        addil   L%foreign_function_call_active-$global$,%dp
        stw     %r0,R%foreign_function_call_active-$global$(0,%r1)

        /* Load ALLOC. */
        addil   L%dynamic_space_free_pointer-$global$,%dp
        ldw     R%dynamic_space_free_pointer-$global$(0,%r1),%r1
        add     reg_ALLOC,%r1,reg_ALLOC

        /* We don't need to load OCFP, CFP, CSP, or BSP because they are
         * in caller saves registers.
         */

        /* End of pseudo-atomic. */
        addit,od        -4,reg_ALLOC,reg_ALLOC

        /* Restore CODE.  Even though it is in a callee saves register
         * it might have been GC'ed.
         */
        ldw     0xc(0,reg_CFP), reg_CODE

        /* Restore the return pc. */
        ldw     8(0,reg_CFP), reg_NL0
        addi    OTHER_POINTER_LOWTAG-3, reg_NL0, reg_NL0
/*
        addi    -3, reg_NL0, reg_NL0
        ldi OTHER_POINTER_LOWTAG, reg_NL1
        sub     reg_NL0, reg_NL1, reg_NL0
*/
        add     reg_CODE, reg_NL0, reg_LIP

        /* Pop the lisp stack frame, and back we go. */
        ldw     4(0,reg_CFP), reg_CSP
        ldw     0(0,reg_CFP), reg_OCFP
        copy    reg_OCFP, reg_CFP
        be      0(5,reg_LIP)
        nop

\f
/*
 * Stuff to sanctify a block of memory for execution.
 * FIX why does this code work: parisc2.0 guide tells
 * us that we should add an sync after fdc and fic and
 * then let seven nops be executed before executing the
 * sanctified code.
 */


        .EXPORT sanctify_for_execution
sanctify_for_execution:
        .proc
        .callinfo
        .entry
        /* %arg0=start addr, %arg1=length in bytes */
        add     %arg0,%arg1,%arg1
        ldo     -1(%arg1),%arg1
        depi    0,31,5,%arg0
        depi    0,31,5,%arg1
        ldsid   (%arg0),%r1
        mtsp    %r1,%sr1
        ldi     32,%r1                  ; bytes per cache line
sanctify_loop:
        fdc     0(%sr1,%arg0)
        comb,<  %arg0,%arg1,sanctify_loop
        fic,m   %r1(%sr1,%arg0)

        bv      %r0(%rp)
        nop

        .exit
        .procend

\f
/*
 * Core saving/restoring support
 */

        .export call_on_stack
call_on_stack:
        /* %arg0 = fn to invoke, %arg1 = new stack base */

        /* Compute the new stack pointer. */
        addi    64,%arg1,%sp

        /* Zero out the previous stack pointer. */
        stw     %r0,-4(0,%sp)

        /* Invoke the function. */
        ble     0(4,%arg0)
        copy    %r31, %r2

        /* Flame out. */
        break   0,0

        .export save_state
save_state:
        .proc
        .callinfo entry_gr=18,entry_fr=21,save_rp,calls
        .entry

        stw     %rp,-0x14(%sr0,%sp)
        fstds,ma        %fr12,8(%sr0,%sp)
        fstds,ma        %fr13,8(%sr0,%sp)
        fstds,ma        %fr14,8(%sr0,%sp)
        fstds,ma        %fr15,8(%sr0,%sp)
        fstds,ma        %fr16,8(%sr0,%sp)
        fstds,ma        %fr17,8(%sr0,%sp)
        fstds,ma        %fr18,8(%sr0,%sp)
        fstds,ma        %fr19,8(%sr0,%sp)
        fstds,ma        %fr20,8(%sr0,%sp)
        fstds,ma        %fr21,8(%sr0,%sp)
        stwm    %r3,0x70(%sr0,%sp)
        stw     %r4,-0x6c(%sr0,%sp)
        stw     %r5,-0x68(%sr0,%sp)
        stw     %r6,-0x64(%sr0,%sp)
        stw     %r7,-0x60(%sr0,%sp)
        stw     %r8,-0x5c(%sr0,%sp)
        stw     %r9,-0x58(%sr0,%sp)
        stw     %r10,-0x54(%sr0,%sp)
        stw     %r11,-0x50(%sr0,%sp)
        stw     %r12,-0x4c(%sr0,%sp)
        stw     %r13,-0x48(%sr0,%sp)
        stw     %r14,-0x44(%sr0,%sp)
        stw     %r15,-0x40(%sr0,%sp)
        stw     %r16,-0x3c(%sr0,%sp)
        stw     %r17,-0x38(%sr0,%sp)
        stw     %r18,-0x34(%sr0,%sp)


        /* Remember the function we want to invoke */
        copy    %arg0,%r19

        /* Pass the new stack pointer in as %arg0 */
        copy    %sp,%arg0

        /* Leave %arg1 as %arg1. */

        /* do the call. */
        ble     0(4,%r19)
        copy    %r31, %r2

        .export _restore_state
_restore_state:

        ldw     -0xd4(%sr0,%sp),%rp
        ldw     -0x34(%sr0,%sp),%r18
        ldw     -0x38(%sr0,%sp),%r17
        ldw     -0x3c(%sr0,%sp),%r16
        ldw     -0x40(%sr0,%sp),%r15
        ldw     -0x44(%sr0,%sp),%r14
        ldw     -0x48(%sr0,%sp),%r13
        ldw     -0x4c(%sr0,%sp),%r12
        ldw     -0x50(%sr0,%sp),%r11
        ldw     -0x54(%sr0,%sp),%r10
        ldw     -0x58(%sr0,%sp),%r9
        ldw     -0x5c(%sr0,%sp),%r8
        ldw     -0x60(%sr0,%sp),%r7
        ldw     -0x64(%sr0,%sp),%r6
        ldw     -0x68(%sr0,%sp),%r5
        ldw     -0x6c(%sr0,%sp),%r4
        ldwm    -0x70(%sr0,%sp),%r3
        fldds,mb        -8(%sr0,%sp),%fr21
        fldds,mb        -8(%sr0,%sp),%fr20
        fldds,mb        -8(%sr0,%sp),%fr19
        fldds,mb        -8(%sr0,%sp),%fr18
        fldds,mb        -8(%sr0,%sp),%fr17
        fldds,mb        -8(%sr0,%sp),%fr16
        fldds,mb        -8(%sr0,%sp),%fr15
        fldds,mb        -8(%sr0,%sp),%fr14
        fldds,mb        -8(%sr0,%sp),%fr13
        bv      %r0(%rp)
        fldds,mb        -8(%sr0,%sp),%fr12


        .exit
        .procend

        .export restore_state
restore_state:
        .proc
        .callinfo
        copy    %arg0,%sp
        b       _restore_state
        copy    %arg1,%ret0
        .procend



/* FIX, add support for singlestep
        break   trap_SingleStepBreakpoint,0
        break   trap_SingleStepBreakpoint,0
*/
        .export SingleStepTraps
SingleStepTraps:

/* Missing !! NOT
        there's a break 0,0 in the new version here!!!
*/

        .align  8
        .export fun_end_breakpoint_guts
fun_end_breakpoint_guts:
        .word   RETURN_PC_HEADER_WIDETAG
        /* multiple value return point -- just jump to trap. */
        b,n     fun_end_breakpoint_trap
        /* single value return point -- convert to multiple w/ n=1 */
        copy    reg_CSP, reg_OCFP
        addi    4, reg_CSP, reg_CSP
        addi    4, %r0, reg_NARGS
        copy    reg_NULL, reg_A1
        copy    reg_NULL, reg_A2
        copy    reg_NULL, reg_A3
        copy    reg_NULL, reg_A4
        copy    reg_NULL, reg_A5

        .export fun_end_breakpoint_trap
fun_end_breakpoint_trap:
        break   trap_FunEndBreakpoint,0
        b,n     fun_end_breakpoint_trap

        .export fun_end_breakpoint_end
fun_end_breakpoint_end:

/* FIX-lav: these are found in assem-rtns.lisp too, but
   genesis.lisp has problem referencing them, so we keep
   these old versions too.  Lisp code cant jump to them
   because it is an inter space jump but lisp do intra
   space jumps */

        .align  8
        .EXPORT closure_tramp
closure_tramp:
        /* reg_FDEFN holds the fdefn object. */
        ldw     FDEFN_FUN_OFFSET(0,reg_FDEFN),reg_LEXENV
        ldw     CLOSURE_FUN_OFFSET(0,reg_LEXENV),reg_L0
        addi    SIMPLE_FUN_CODE_OFFSET, reg_L0, reg_LIP
        bv,n    0(reg_LIP)

        .align  8
        .EXPORT undefined_tramp
undefined_tramp:
        break   trap_Error,0
        .byte   4
        .byte   UNDEFINED_FUN_ERROR
        .byte   254
        .byte   (0x20 + sc_DescriptorReg)
        .byte   1
        .align  4