src/Unix/ppc_asm.S

/*
 *  asm_linux.S - Assembly routines
 *
 *  SheepShaver (C) 1997-2005 Christian Bauer and Marc Hellwig
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */

#include <ppc_asm.tmpl>
#include <xlowmem.h>

#define SAVE_FP_EXEC_68K 1


/*
 *  void *get_toc(void) - Get TOC pointer (small data pointer r13 under Linux)
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_toc)
C_SYMBOL_NAME(get_toc):
        mr      r3,r13
        blr


/*
 *  void *get_sp(void) - Get stack pointer
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_sp)
C_SYMBOL_NAME(get_sp):
        mr      r3,r1
        blr


/*
 *  void set_r2(uint32 val {r3}) - Set r2
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(set_r2)
C_SYMBOL_NAME(set_r2):
        mr      r2,r3
        blr


/*
 *  void flush_icache_range(void *start {r3}, void *end {r3}) - Flush D and I cache
 */

CACHE_LINE_SIZE = 32
LG_CACHE_LINE_SIZE = 5

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(flush_icache_range)
C_SYMBOL_NAME(flush_icache_range):
        li      r5,CACHE_LINE_SIZE-1
        andc    r3,r3,r5
        subf    r4,r3,r4
        add     r4,r4,r5
        srwi.   r4,r4,LG_CACHE_LINE_SIZE
        beqlr
        mtctr   r4
        mr      r6,r3
1:      dcbst   0,r3
        addi    r3,r3,CACHE_LINE_SIZE
        bdnz    1b
        sync                            /* wait for dcbst's to get to ram */
        mtctr   r4
2:      icbi    0,r6
        addi    r6,r6,CACHE_LINE_SIZE
        bdnz    2b
        sync
        isync
        blr


/*
 *  long atomic_add(long *var{r3}, long add{r4}) - Atomic add operation
 *  long atomic_and(long *var{r3}, long and{r4}) - Atomic and operation
 *  long atomic_or(long *var{r3}, long or{r4}) - Atomic or operation
 *  int test_and_set(int *var{r3}, int val{r4}) - Atomic test-and-set
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(atomic_add)
C_SYMBOL_NAME(atomic_add):
0:      dcbf    0,r3
        sync
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        isync
        lwarx   r5,0,r3
        add     r0,r4,r5
        stwcx.  r0,0,r3
        bne-    0b
        mr      r3,r5
        isync
        blr

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(atomic_and)
C_SYMBOL_NAME(atomic_and):
0:      dcbf    0,r3
        sync
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        isync
        lwarx   r5,0,r3
        and     r0,r4,r5
        stwcx.  r0,0,r3
        bne-    0b
        mr      r3,r5
        isync
        blr

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(atomic_or)
C_SYMBOL_NAME(atomic_or):
0:      dcbf    0,r3
        sync
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        isync
        lwarx   r5,0,r3
        or      r0,r4,r5
        stwcx.  r0,0,r3
        bne-    0b
        mr      r3,r5
        isync
        blr

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(test_and_set)
C_SYMBOL_NAME(test_and_set):
0:      dcbf    0,r3
        sync
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        ori     r0,r0,1
        isync
        lwarx   r5,0,r3
        cmpi    0,r5,0x0000
        beq     1f
        stwcx.  r4,0,r3
        bne-    0b
1:      isync     
        mr      r3,r5
        blr


/*
 *  void quit_emulator(void) - Jump to XLM_EMUL_RETURN_PROC
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(quit_emulator)
C_SYMBOL_NAME(quit_emulator):
        lwz     r0,XLM_EMUL_RETURN_PROC(0)
        mtlr    r0
        blr


/*
 *  void jump_to_rom(uint32 entry {r3}, uint32 emulator_data {r4}) - Jump to Mac ROM
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(jump_to_rom)
C_SYMBOL_NAME(jump_to_rom):
        // Create stack frame
        mflr    r0
        stw     r0,4(r1)
        stwu    r1,-(20+19*4+18*8)(r1)  // maintain 16 byte alignment

        // Save PowerPC registers
        stmw    r13,20(r1)
        stfd    f14,20+19*4+0*8(r1)
        stfd    f15,20+19*4+1*8(r1)
        stfd    f16,20+19*4+2*8(r1)
        stfd    f17,20+19*4+3*8(r1)
        stfd    f18,20+19*4+4*8(r1)
        stfd    f19,20+19*4+5*8(r1)
        stfd    f20,20+19*4+6*8(r1)
        stfd    f21,20+19*4+7*8(r1)
        stfd    f22,20+19*4+8*8(r1)
        stfd    f23,20+19*4+9*8(r1)
        stfd    f24,20+19*4+10*8(r1)
        stfd    f25,20+19*4+11*8(r1)
        stfd    f26,20+19*4+12*8(r1)
        stfd    f27,20+19*4+13*8(r1)
        stfd    f28,20+19*4+14*8(r1)
        stfd    f29,20+19*4+15*8(r1)
        stfd    f30,20+19*4+16*8(r1)
        stfd    f31,20+19*4+17*8(r1)

        // Move entry address to ctr
        mtctr   r3

        // Skip over EMUL_RETURN routine and get its address
        bl      1f


        /*
         *  EMUL_RETURN: Returned from emulator
         */

        // Restore PowerPC registers
        lwz     r1,XLM_EMUL_RETURN_STACK(0)
        lmw     r13,20(r1)
        lfd     f14,20+19*4+0*8(r1)
        lfd     f15,20+19*4+1*8(r1)
        lfd     f16,20+19*4+2*8(r1)
        lfd     f17,20+19*4+3*8(r1)
        lfd     f18,20+19*4+4*8(r1)
        lfd     f19,20+19*4+5*8(r1)
        lfd     f20,20+19*4+6*8(r1)
        lfd     f21,20+19*4+7*8(r1)
        lfd     f22,20+19*4+8*8(r1)
        lfd     f23,20+19*4+9*8(r1)
        lfd     f24,20+19*4+10*8(r1)
        lfd     f25,20+19*4+11*8(r1)
        lfd     f26,20+19*4+12*8(r1)
        lfd     f27,20+19*4+13*8(r1)
        lfd     f28,20+19*4+14*8(r1)
        lfd     f29,20+19*4+15*8(r1)
        lfd     f30,20+19*4+16*8(r1)
        lfd     f31,20+19*4+17*8(r1)

        // Exiting from 68k emulator
        li      r0,1
        stw     r0,XLM_IRQ_NEST(0)
        li      r0,MODE_NATIVE
        stw     r0,XLM_RUN_MODE(0)

        // Return to caller of jump_to_rom()
        lwz     r0,20+19*4+18*8+4(r1)
        mtlr    r0
        addi    r1,r1,20+19*4+18*8
        blr


        // Save address of EMUL_RETURN routine for 68k emulator patch
1:      mflr    r0
        stw     r0,XLM_EMUL_RETURN_PROC(0)

        // Skip over EXEC_RETURN routine and get its address
        bl      2f


        /*
         *  EXEC_RETURN: Returned from 68k routine executed with Execute68k()
         */

        // Save r25 (contains current 68k interrupt level)
        stw     r25,XLM_68K_R25(0)

        // Reentering EMUL_OP mode
        li      r0,MODE_EMUL_OP
        stw     r0,XLM_RUN_MODE(0)

        // Save 68k registers
        lwz     r4,48(r1)       // Pointer to M68kRegisters
        stw     r8,0*4(r4)      // d[0]...d[7]
        stw     r9,1*4(r4)
        stw     r10,2*4(r4)
        stw     r11,3*4(r4)
        stw     r12,4*4(r4)
        stw     r13,5*4(r4)
        stw     r14,6*4(r4)
        stw     r15,7*4(r4)
        stw     r16,8*4(r4)     // a[0]..a[6]
        stw     r17,9*4(r4)
        stw     r18,10*4(r4)
        stw     r19,11*4(r4)
        stw     r20,12*4(r4)
        stw     r21,13*4(r4)
        stw     r22,14*4(r4)

        // Restore PowerPC registers
        lmw     r13,56(r1)
#if SAVE_FP_EXEC_68K
        lfd     f14,56+19*4+0*8(r1)
        lfd     f15,56+19*4+1*8(r1)
        lfd     f16,56+19*4+2*8(r1)
        lfd     f17,56+19*4+3*8(r1)
        lfd     f18,56+19*4+4*8(r1)
        lfd     f19,56+19*4+5*8(r1)
        lfd     f20,56+19*4+6*8(r1)
        lfd     f21,56+19*4+7*8(r1)
        lfd     f22,56+19*4+8*8(r1)
        lfd     f23,56+19*4+9*8(r1)
        lfd     f24,56+19*4+10*8(r1)
        lfd     f25,56+19*4+11*8(r1)
        lfd     f26,56+19*4+12*8(r1)
        lfd     f27,56+19*4+13*8(r1)
        lfd     f28,56+19*4+14*8(r1)
        lfd     f29,56+19*4+15*8(r1)
        lfd     f30,56+19*4+16*8(r1)
        lfd     f31,56+19*4+17*8(r1)
#endif

        // Return to caller
        lwz     r0,52(r1)
        mtcrf   0xff,r0
        lwz     r0,56+19*4+18*8+4(r1)
        mtlr    r0
        addi    r1,r1,56+19*4+18*8
        blr


        // Save address of EXEC_RETURN routine for 68k emulator patch
2:      mflr    r0
        stw     r0,XLM_EXEC_RETURN_PROC(0)

        // Skip over EMUL_BREAK/EMUL_OP routine and get its address
        bl      3f


        /*
         *  EMUL_BREAK/EMUL_OP: Execute native routine, selector in r5 (my own private mode switch)
         *
         *  68k registers are stored in a M68kRegisters struct on the stack
         *  which the native routine may read and modify
         */

        // Save r25 (contains current 68k interrupt level)
        stw     r25,XLM_68K_R25(0)

        // Entering EMUL_OP mode within 68k emulator
        li      r0,MODE_EMUL_OP
        stw     r0,XLM_RUN_MODE(0)

        // Create PowerPC stack frame, reserve space for M68kRegisters
        mr      r3,r1
        subi    r1,r1,64        // Fake "caller" frame
        rlwinm  r1,r1,0,0,27    // Align stack

        mfcr    r0
        rlwinm  r0,r0,0,11,8
        stw     r0,4(r1)
        mfxer   r0
        stw     r0,16(r1)
        stw     r2,12(r1)
        stwu    r1,-(24+16*4+15*8)(r1)

        // Save 68k registers (M68kRegisters)
        stw     r8,24+0*4(r1)   // d[0]..d[7]
        stw     r9,24+1*4(r1)
        stw     r10,24+2*4(r1)
        stw     r11,24+3*4(r1)
        stw     r12,24+4*4(r1)
        stw     r13,24+5*4(r1)
        stw     r14,24+6*4(r1)
        stw     r15,24+7*4(r1)
        stw     r16,24+8*4(r1)  // a[0]..a[7]
        stw     r17,24+9*4(r1)
        stw     r18,24+10*4(r1)
        stw     r19,24+11*4(r1)
        stw     r20,24+12*4(r1)
        stw     r21,24+13*4(r1)
        stw     r22,24+14*4(r1)
        stw     r3,24+15*4(r1)
        stfd    f0,24+16*4+0*8(r1)
        stfd    f1,24+16*4+1*8(r1)
        stfd    f2,24+16*4+2*8(r1)
        stfd    f3,24+16*4+3*8(r1)
        stfd    f4,24+16*4+4*8(r1)
        stfd    f5,24+16*4+5*8(r1)
        stfd    f6,24+16*4+6*8(r1)
        stfd    f7,24+16*4+7*8(r1)
        mffs    f0
        stfd    f8,24+16*4+8*8(r1)
        stfd    f9,24+16*4+9*8(r1)
        stfd    f10,24+16*4+10*8(r1)
        stfd    f11,24+16*4+11*8(r1)
        stfd    f12,24+16*4+12*8(r1)
        stfd    f13,24+16*4+13*8(r1)
        stfd    f0,24+16*4+14*8(r1)

        // Execute native routine
        lwz     r13,XLM_TOC(0)
        addi    r3,r1,24
        mr      r4,r24
        bl      C_SYMBOL_NAME(EmulOp)

        // Restore 68k registers (M68kRegisters)
        lwz     r8,24+0*4(r1)   // d[0]..d[7]
        lwz     r9,24+1*4(r1)
        lwz     r10,24+2*4(r1)
        lwz     r11,24+3*4(r1)
        lwz     r12,24+4*4(r1)
        lwz     r13,24+5*4(r1)
        lwz     r14,24+6*4(r1)
        lwz     r15,24+7*4(r1)
        lwz     r16,24+8*4(r1)  // a[0]..a[7]
        lwz     r17,24+9*4(r1)
        lwz     r18,24+10*4(r1)
        lwz     r19,24+11*4(r1)
        lwz     r20,24+12*4(r1)
        lwz     r21,24+13*4(r1)
        lwz     r22,24+14*4(r1)
        lwz     r3,24+15*4(r1)
        lfd     f13,24+16*4+14*8(r1)
        lfd     f0,24+16*4+0*8(r1)
        lfd     f1,24+16*4+1*8(r1)
        lfd     f2,24+16*4+2*8(r1)
        lfd     f3,24+16*4+3*8(r1)
        lfd     f4,24+16*4+4*8(r1)
        lfd     f5,24+16*4+5*8(r1)
        lfd     f6,24+16*4+6*8(r1)
        lfd     f7,24+16*4+7*8(r1)
        mtfsf   0xff,f13
        lfd     f8,24+16*4+8*8(r1)
        lfd     f9,24+16*4+9*8(r1)
        lfd     f10,24+16*4+10*8(r1)
        lfd     f11,24+16*4+11*8(r1)
        lfd     f12,24+16*4+12*8(r1)
        lfd     f13,24+16*4+13*8(r1)

        // Delete PowerPC stack frame
        lwz     r2,24+16*4+15*8+12(r1)
        lwz     r0,24+16*4+15*8+16(r1)
        mtxer   r0
        lwz     r0,24+16*4+15*8+4(r1)
        mtcrf   0xff,r0
        mr      r1,r3

        // Reentering 68k emulator
        li      r0,MODE_68K
        stw     r0,XLM_RUN_MODE(0)

        // Set r0 to 0 for 68k emulator
        li      r0,0

        // Execute next 68k opcode
        rlwimi  r29,r27,3,13,28
        lhau    r27,2(r24)
        mtlr    r29
        blr


        // Save address of EMUL_BREAK/EMUL_OP routine for 68k emulator patch
3:      mflr    r0
        stw     r0,XLM_EMUL_OP_PROC(0)

        // Save stack pointer for EMUL_RETURN
        stw     r1,XLM_EMUL_RETURN_STACK(0)

        // Preset registers for ROM boot routine
        lis     r3,0x40b0               // Pointer to ROM boot structure
        ori     r3,r3,0xd000

        // 68k emulator is now active
        li      r0,MODE_68K
        stw     r0,XLM_RUN_MODE(0)

        // Jump to ROM
        bctr


/*
 *  void execute_68k(uint32 pc {r3}, M68kRegisters *r {r4}) - Execute 68k routine
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(execute_68k)
C_SYMBOL_NAME(execute_68k):
        // Create MacOS stack frame
        mflr    r0
        stw     r0,4(r1)
        stwu    r1,-(56+19*4+18*8)(r1)
        mfcr    r0
        stw     r4,48(r1)       // save pointer to M68kRegisters for EXEC_RETURN
        stw     r0,52(r1)       // save CR

        // Save PowerPC registers
        stmw    r13,56(r1)
#if SAVE_FP_EXEC_68K
        stfd    f14,56+19*4+0*8(r1)
        stfd    f15,56+19*4+1*8(r1)
        stfd    f16,56+19*4+2*8(r1)
        stfd    f17,56+19*4+3*8(r1)
        stfd    f18,56+19*4+4*8(r1)
        stfd    f19,56+19*4+5*8(r1)
        stfd    f20,56+19*4+6*8(r1)
        stfd    f21,56+19*4+7*8(r1)
        stfd    f22,56+19*4+8*8(r1)
        stfd    f23,56+19*4+9*8(r1)
        stfd    f24,56+19*4+10*8(r1)
        stfd    f25,56+19*4+11*8(r1)
        stfd    f26,56+19*4+12*8(r1)
        stfd    f27,56+19*4+13*8(r1)
        stfd    f28,56+19*4+14*8(r1)
        stfd    f29,56+19*4+15*8(r1)
        stfd    f30,56+19*4+16*8(r1)
        stfd    f31,56+19*4+17*8(r1)
#endif

        // Set up registers for 68k emulator
        lwz     r31,XLM_KERNEL_DATA(0)  // Pointer to Kernel Data
        addi    r31,r31,0x1000
        li      r0,0
        mtcrf   0xff,r0
        creqv   11,11,11                        // Supervisor mode
        lwz     r8,0*4(r4)      // d[0]..d[7]
        lwz     r9,1*4(r4)
        lwz     r10,2*4(r4)
        lwz     r11,3*4(r4)
        lwz     r12,4*4(r4)
        lwz     r13,5*4(r4)
        lwz     r14,6*4(r4)
        lwz     r15,7*4(r4)
        lwz     r16,8*4(r4)     // a[0]..a[6]
        lwz     r17,9*4(r4)
        lwz     r18,10*4(r4)
        lwz     r19,11*4(r4)
        lwz     r20,12*4(r4)
        lwz     r21,13*4(r4)
        lwz     r22,14*4(r4)
        li      r23,0
        mr      r24,r3
        lwz     r25,XLM_68K_R25(0)              // MSB of SR
        li      r26,0
        li      r28,0                           // VBR
        lwz     r29,0x74(r31)           // Pointer to opcode table
        lwz     r30,0x78(r31)           // Address of emulator

        // Push return address (points to EXEC_RETURN opcode) on stack
        li      r0,XLM_EXEC_RETURN_OPCODE
        stwu    r0,-4(r1)

        // Reentering 68k emulator
        li      r0,MODE_68K
        stw     r0,XLM_RUN_MODE(0)

        // Set r0 to 0 for 68k emulator
        li      r0,0

        // Execute 68k opcode
        lha     r27,0(r24)
        rlwimi  r29,r27,3,13,28
        lhau    r27,2(r24)
        mtlr    r29
        blr


/*
 *  uint32 call_macos1(uint32 tvect{r3}, uint32 arg1{r4}) ... - Call MacOS routines
 */

ASM_MACRO_START prolog
        mflr    r0
        stw     r0,4(r1)
        stwu    r1,-64(r1)
ASM_MACRO_END

ASM_MACRO_START epilog
        lwz     r13,XLM_TOC(0)
        lwz     r0,64+4(r1)
        mtlr    r0
        addi    r1,r1,64
        blr
ASM_MACRO_END

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos)
C_SYMBOL_NAME(call_macos):
        prolog
        lwz     r0,0(r3)        // Get routine address
        lwz     r2,4(r3)        // Load TOC pointer
        mtctr   r0
        bctrl
        epilog

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos1)
C_SYMBOL_NAME(call_macos1):
        prolog
        lwz     r0,0(r3)        // Get routine address
        lwz     r2,4(r3)        // Load TOC pointer
        mtctr   r0
        mr      r3,r4
        bctrl
        epilog

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos2)
C_SYMBOL_NAME(call_macos2):
        prolog
        lwz     r0,0(r3)        // Get routine address
        lwz     r2,4(r3)        // Load TOC pointer
        mtctr   r0
        mr      r3,r4
        mr      r4,r5
        bctrl
        epilog

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos3)
C_SYMBOL_NAME(call_macos3):
        prolog
        lwz     r0,0(r3)        // Get routine address
        lwz     r2,4(r3)        // Load TOC pointer
        mtctr   r0
        mr      r3,r4
        mr      r4,r5
        mr      r5,r6
        bctrl
        epilog

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos4)
C_SYMBOL_NAME(call_macos4):
        prolog
        lwz     r0,0(r3)        // Get routine address
        lwz     r2,4(r3)        // Load TOC pointer
        mtctr   r0
        mr      r3,r4
        mr      r4,r5
        mr      r5,r6
        mr      r6,r7
        bctrl
        epilog

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos5)
C_SYMBOL_NAME(call_macos5):
        prolog
        lwz     r0,0(r3)        // Get routine address
        lwz     r2,4(r3)        // Load TOC pointer
        mtctr   r0
        mr      r3,r4
        mr      r4,r5
        mr      r5,r6
        mr      r6,r7
        mr      r7,r8
        bctrl
        epilog

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos6)
C_SYMBOL_NAME(call_macos6):
        prolog
        lwz     r0,0(r3)        // Get routine address
        lwz     r2,4(r3)        // Load TOC pointer
        mtctr   r0
        mr      r3,r4
        mr      r4,r5
        mr      r5,r6
        mr      r6,r7
        mr      r7,r8
        mr      r8,r9
        bctrl
        epilog

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos7)
C_SYMBOL_NAME(call_macos7):
        prolog
        lwz     r0,0(r3)        // Get routine address
        lwz     r2,4(r3)        // Load TOC pointer
        mtctr   r0
        mr      r3,r4
        mr      r4,r5
        mr      r5,r6
        mr      r6,r7
        mr      r7,r8
        mr      r8,r9
        mr      r9,r10
        bctrl
        epilog


/*
 *  Native resource manager patches
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_resource)
C_SYMBOL_NAME(get_resource):
        // Create stack frame
        mflr    r0
        stw     r0,8(r1)
        stwu    r1,-(56+12)(r1)

        // Save type/ID
        stw     r3,56(r1)
        stw     r4,56+4(r1)

        // Call old routine
        lwz     r0,XLM_GET_RESOURCE(0)
        lwz     r2,XLM_RES_LIB_TOC(0)
        mtctr   r0
        bctrl
        stw     r3,56+8(r1)             // Save handle

        // Call CheckLoad
        lwz     r3,56(r1)
        lha     r4,56+6(r1)
        lwz     r5,56+8(r1)
        bl      C_SYMBOL_NAME(check_load_invoc)
        lwz     r3,56+8(r1)             // Restore handle

        // Return to caller
        lwz     r0,56+12+8(r1)
        mtlr    r0
        addi    r1,r1,56+12
        blr

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_1_resource)
C_SYMBOL_NAME(get_1_resource):
        // Create stack frame
        mflr    r0
        stw     r0,8(r1)
        stwu    r1,-(56+12)(r1)

        // Save type/ID
        stw     r3,56(r1)
        stw     r4,56+4(r1)

        // Call old routine
        lwz     r0,XLM_GET_1_RESOURCE(0)
        lwz     r2,XLM_RES_LIB_TOC(0)
        mtctr   r0
        bctrl
        stw     r3,56+8(r1)             // Save handle

        // Call CheckLoad
        lwz     r3,56(r1)
        lha     r4,56+6(r1)
        lwz     r5,56+8(r1)
        bl      C_SYMBOL_NAME(check_load_invoc)
        lwz     r3,56+8(r1)             // Restore handle

        // Return to caller
        lwz     r0,56+12+8(r1)
        mtlr    r0
        addi    r1,r1,56+12
        blr

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_ind_resource)
C_SYMBOL_NAME(get_ind_resource):
        // Create stack frame
        mflr    r0
        stw     r0,8(r1)
        stwu    r1,-(56+12)(r1)

        // Save type/index
        stw     r3,56(r1)
        stw     r4,56+4(r1)

        // Call old routine
        lwz     r0,XLM_GET_IND_RESOURCE(0)
        lwz     r2,XLM_RES_LIB_TOC(0)
        mtctr   r0
        bctrl
        stw     r3,56+8(r1)             // Save handle

        // Call CheckLoad
        lwz     r3,56(r1)
        lha     r4,56+6(r1)
        lwz     r5,56+8(r1)
        bl      C_SYMBOL_NAME(check_load_invoc)
        lwz     r3,56+8(r1)             // Restore handle

        // Return to caller
        lwz     r0,56+12+8(r1)
        mtlr    r0
        addi    r1,r1,56+12
        blr

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_1_ind_resource)
C_SYMBOL_NAME(get_1_ind_resource):
        // Create stack frame
        mflr    r0
        stw     r0,8(r1)
        stwu    r1,-(56+12)(r1)

        // Save type/index
        stw     r3,56(r1)
        stw     r4,56+4(r1)

        // Call old routine
        lwz     r0,XLM_GET_1_IND_RESOURCE(0)
        lwz     r2,XLM_RES_LIB_TOC(0)
        mtctr   r0
        bctrl
        stw     r3,56+8(r1)             // Save handle

        // Call CheckLoad
        lwz     r3,56(r1)
        lha     r4,56+6(r1)
        lwz     r5,56+8(r1)
        bl      C_SYMBOL_NAME(check_load_invoc)
        lwz     r3,56+8(r1)             // Restore handle

        // Return to caller
        lwz     r0,56+12+8(r1)
        mtlr    r0
        addi    r1,r1,56+12
        blr

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(r_get_resource)
C_SYMBOL_NAME(r_get_resource):
        // Create stack frame
        mflr    r0
        stw     r0,8(r1)
        stwu    r1,-(56+12)(r1)

        // Save type/ID
        stw     r3,56(r1)
        stw     r4,56+4(r1)

        // Call old routine
        lwz     r0,XLM_R_GET_RESOURCE(0)
        lwz     r2,XLM_RES_LIB_TOC(0)
        mtctr   r0
        bctrl
        stw     r3,56+8(r1)             // Save handle

        // Call CheckLoad
        lwz     r3,56(r1)
        lha     r4,56+6(r1)
        lwz     r5,56+8(r1)
        bl      C_SYMBOL_NAME(check_load_invoc)
        lwz     r3,56+8(r1)             // Restore handle

        // Return to caller
        lwz     r0,56+12+8(r1)
        mtlr    r0
        addi    r1,r1,56+12
        blr


/*
 *  void ppc_interrupt(uint32 entry{r3}, uint32 kernel_data{r4}) - Execute PPC interrupt
 */

        ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(ppc_interrupt)
C_SYMBOL_NAME(ppc_interrupt):
        mflr    r0
        stw     r0,4(r1)
        stwu    r1,-64(r1)

        // Get address of return routine
        bl      1f

        // Return routine
        lwz     r0,64+4(r1)
        mtlr    r0
        addi    r1,r1,64
        blr

        // Prepare registers for nanokernel interrupt routine
1:      mtctr   r1
        mr      r1,r4
        stw     r6,0x018(r1)
        mfctr   r6
        stw     r6,0x004(r1)
        lwz     r6,0x65c(r1)
        stw     r7,0x13c(r6)
        stw     r8,0x144(r6)
        stw     r9,0x14c(r6)
        stw     r10,0x154(r6)
        stw     r11,0x15c(r6)
        stw     r12,0x164(r6)
        stw     r13,0x16c(r6)

        mflr    r10
        mfcr    r13
        lwz     r7,0x660(r1)
        mflr    r12
        rlwimi. r7,r7,8,0,0
        li      r11,0
        ori     r11,r11,0xf072  // MSR (SRR1)
        mtcrf   0x70,r11
        li      r8,0

        // Enter nanokernel
        mtlr    r3
        blr
Revision:	1.1
Committed:	2005-02-20T18:25:45Z (19 years, 9 months ago) by gbeauche
Branch:	MAIN
Log Message:	Move Linux/asm_linux.S to ppc_asm.S suitable for Linux, MacOS X and NetBSD
#	Content
1	/*
2	* asm_linux.S - Assembly routines
3	*
4	* SheepShaver (C) 1997-2005 Christian Bauer and Marc Hellwig
5	*
6	* This program is free software; you can redistribute it and/or modify
7	* it under the terms of the GNU General Public License as published by
8	* the Free Software Foundation; either version 2 of the License, or
9	* (at your option) any later version.
10	*
11	* This program is distributed in the hope that it will be useful,
12	* but WITHOUT ANY WARRANTY; without even the implied warranty of
13	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	* GNU General Public License for more details.
15	*
16	* You should have received a copy of the GNU General Public License
17	* along with this program; if not, write to the Free Software
18	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19	*/
20
21	#include <ppc_asm.tmpl>
22	#include <xlowmem.h>
23
24	#define SAVE_FP_EXEC_68K 1
25
26
27	/*
28	* void *get_toc(void) - Get TOC pointer (small data pointer r13 under Linux)
29	*/
30
31	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_toc)
32	C_SYMBOL_NAME(get_toc):
33	mr r3,r13
34	blr
35
36
37	/*
38	* void *get_sp(void) - Get stack pointer
39	*/
40
41	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_sp)
42	C_SYMBOL_NAME(get_sp):
43	mr r3,r1
44	blr
45
46
47	/*
48	* void set_r2(uint32 val {r3}) - Set r2
49	*/
50
51	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(set_r2)
52	C_SYMBOL_NAME(set_r2):
53	mr r2,r3
54	blr
55
56
57	/*
58	* void flush_icache_range(void start {r3}, void end {r3}) - Flush D and I cache
59	*/
60
61	CACHE_LINE_SIZE = 32
62	LG_CACHE_LINE_SIZE = 5
63
64	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(flush_icache_range)
65	C_SYMBOL_NAME(flush_icache_range):
66	li r5,CACHE_LINE_SIZE-1
67	andc r3,r3,r5
68	subf r4,r3,r4
69	add r4,r4,r5
70	srwi. r4,r4,LG_CACHE_LINE_SIZE
71	beqlr
72	mtctr r4
73	mr r6,r3
74	1: dcbst 0,r3
75	addi r3,r3,CACHE_LINE_SIZE
76	bdnz 1b
77	sync /* wait for dcbst's to get to ram */
78	mtctr r4
79	2: icbi 0,r6
80	addi r6,r6,CACHE_LINE_SIZE
81	bdnz 2b
82	sync
83	isync
84	blr
85
86
87	/*
88	* long atomic_add(long *var{r3}, long add{r4}) - Atomic add operation
89	* long atomic_and(long *var{r3}, long and{r4}) - Atomic and operation
90	* long atomic_or(long *var{r3}, long or{r4}) - Atomic or operation
91	* int test_and_set(int *var{r3}, int val{r4}) - Atomic test-and-set
92	*/
93
94	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(atomic_add)
95	C_SYMBOL_NAME(atomic_add):
96	0: dcbf 0,r3
97	sync
98	ori r0,r0,1
99	ori r0,r0,1
100	ori r0,r0,1
101	ori r0,r0,1
102	ori r0,r0,1
103	ori r0,r0,1
104	isync
105	lwarx r5,0,r3
106	add r0,r4,r5
107	stwcx. r0,0,r3
108	bne- 0b
109	mr r3,r5
110	isync
111	blr
112
113	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(atomic_and)
114	C_SYMBOL_NAME(atomic_and):
115	0: dcbf 0,r3
116	sync
117	ori r0,r0,1
118	ori r0,r0,1
119	ori r0,r0,1
120	ori r0,r0,1
121	ori r0,r0,1
122	ori r0,r0,1
123	isync
124	lwarx r5,0,r3
125	and r0,r4,r5
126	stwcx. r0,0,r3
127	bne- 0b
128	mr r3,r5
129	isync
130	blr
131
132	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(atomic_or)
133	C_SYMBOL_NAME(atomic_or):
134	0: dcbf 0,r3
135	sync
136	ori r0,r0,1
137	ori r0,r0,1
138	ori r0,r0,1
139	ori r0,r0,1
140	ori r0,r0,1
141	ori r0,r0,1
142	isync
143	lwarx r5,0,r3
144	or r0,r4,r5
145	stwcx. r0,0,r3
146	bne- 0b
147	mr r3,r5
148	isync
149	blr
150
151	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(test_and_set)
152	C_SYMBOL_NAME(test_and_set):
153	0: dcbf 0,r3
154	sync
155	ori r0,r0,1
156	ori r0,r0,1
157	ori r0,r0,1
158	ori r0,r0,1
159	ori r0,r0,1
160	ori r0,r0,1
161	isync
162	lwarx r5,0,r3
163	cmpi 0,r5,0x0000
164	beq 1f
165	stwcx. r4,0,r3
166	bne- 0b
167	1: isync
168	mr r3,r5
169	blr
170
171
172	/*
173	* void quit_emulator(void) - Jump to XLM_EMUL_RETURN_PROC
174	*/
175
176	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(quit_emulator)
177	C_SYMBOL_NAME(quit_emulator):
178	lwz r0,XLM_EMUL_RETURN_PROC(0)
179	mtlr r0
180	blr
181
182
183	/*
184	* void jump_to_rom(uint32 entry {r3}, uint32 emulator_data {r4}) - Jump to Mac ROM
185	*/
186
187	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(jump_to_rom)
188	C_SYMBOL_NAME(jump_to_rom):
189	// Create stack frame
190	mflr r0
191	stw r0,4(r1)
192	stwu r1,-(20+194+188)(r1) // maintain 16 byte alignment
193
194	// Save PowerPC registers
195	stmw r13,20(r1)
196	stfd f14,20+194+08(r1)
197	stfd f15,20+194+18(r1)
198	stfd f16,20+194+28(r1)
199	stfd f17,20+194+38(r1)
200	stfd f18,20+194+48(r1)
201	stfd f19,20+194+58(r1)
202	stfd f20,20+194+68(r1)
203	stfd f21,20+194+78(r1)
204	stfd f22,20+194+88(r1)
205	stfd f23,20+194+98(r1)
206	stfd f24,20+194+108(r1)
207	stfd f25,20+194+118(r1)
208	stfd f26,20+194+128(r1)
209	stfd f27,20+194+138(r1)
210	stfd f28,20+194+148(r1)
211	stfd f29,20+194+158(r1)
212	stfd f30,20+194+168(r1)
213	stfd f31,20+194+178(r1)
214
215	// Move entry address to ctr
216	mtctr r3
217
218	// Skip over EMUL_RETURN routine and get its address
219	bl 1f
220
221
222	/*
223	* EMUL_RETURN: Returned from emulator
224	*/
225
226	// Restore PowerPC registers
227	lwz r1,XLM_EMUL_RETURN_STACK(0)
228	lmw r13,20(r1)
229	lfd f14,20+194+08(r1)
230	lfd f15,20+194+18(r1)
231	lfd f16,20+194+28(r1)
232	lfd f17,20+194+38(r1)
233	lfd f18,20+194+48(r1)
234	lfd f19,20+194+58(r1)
235	lfd f20,20+194+68(r1)
236	lfd f21,20+194+78(r1)
237	lfd f22,20+194+88(r1)
238	lfd f23,20+194+98(r1)
239	lfd f24,20+194+108(r1)
240	lfd f25,20+194+118(r1)
241	lfd f26,20+194+128(r1)
242	lfd f27,20+194+138(r1)
243	lfd f28,20+194+148(r1)
244	lfd f29,20+194+158(r1)
245	lfd f30,20+194+168(r1)
246	lfd f31,20+194+178(r1)
247
248	// Exiting from 68k emulator
249	li r0,1
250	stw r0,XLM_IRQ_NEST(0)
251	li r0,MODE_NATIVE
252	stw r0,XLM_RUN_MODE(0)
253
254	// Return to caller of jump_to_rom()
255	lwz r0,20+194+188+4(r1)
256	mtlr r0
257	addi r1,r1,20+194+188
258	blr
259
260
261	// Save address of EMUL_RETURN routine for 68k emulator patch
262	1: mflr r0
263	stw r0,XLM_EMUL_RETURN_PROC(0)
264
265	// Skip over EXEC_RETURN routine and get its address
266	bl 2f
267
268
269	/*
270	* EXEC_RETURN: Returned from 68k routine executed with Execute68k()
271	*/
272
273	// Save r25 (contains current 68k interrupt level)
274	stw r25,XLM_68K_R25(0)
275
276	// Reentering EMUL_OP mode
277	li r0,MODE_EMUL_OP
278	stw r0,XLM_RUN_MODE(0)
279
280	// Save 68k registers
281	lwz r4,48(r1) // Pointer to M68kRegisters
282	stw r8,0*4(r4) // d[0]...d[7]
283	stw r9,1*4(r4)
284	stw r10,2*4(r4)
285	stw r11,3*4(r4)
286	stw r12,4*4(r4)
287	stw r13,5*4(r4)
288	stw r14,6*4(r4)
289	stw r15,7*4(r4)
290	stw r16,8*4(r4) // a[0]..a[6]
291	stw r17,9*4(r4)
292	stw r18,10*4(r4)
293	stw r19,11*4(r4)
294	stw r20,12*4(r4)
295	stw r21,13*4(r4)
296	stw r22,14*4(r4)
297
298	// Restore PowerPC registers
299	lmw r13,56(r1)
300	#if SAVE_FP_EXEC_68K
301	lfd f14,56+194+08(r1)
302	lfd f15,56+194+18(r1)
303	lfd f16,56+194+28(r1)
304	lfd f17,56+194+38(r1)
305	lfd f18,56+194+48(r1)
306	lfd f19,56+194+58(r1)
307	lfd f20,56+194+68(r1)
308	lfd f21,56+194+78(r1)
309	lfd f22,56+194+88(r1)
310	lfd f23,56+194+98(r1)
311	lfd f24,56+194+108(r1)
312	lfd f25,56+194+118(r1)
313	lfd f26,56+194+128(r1)
314	lfd f27,56+194+138(r1)
315	lfd f28,56+194+148(r1)
316	lfd f29,56+194+158(r1)
317	lfd f30,56+194+168(r1)
318	lfd f31,56+194+178(r1)
319	#endif
320
321	// Return to caller
322	lwz r0,52(r1)
323	mtcrf 0xff,r0
324	lwz r0,56+194+188+4(r1)
325	mtlr r0
326	addi r1,r1,56+194+188
327	blr
328
329
330	// Save address of EXEC_RETURN routine for 68k emulator patch
331	2: mflr r0
332	stw r0,XLM_EXEC_RETURN_PROC(0)
333
334	// Skip over EMUL_BREAK/EMUL_OP routine and get its address
335	bl 3f
336
337
338	/*
339	* EMUL_BREAK/EMUL_OP: Execute native routine, selector in r5 (my own private mode switch)
340	*
341	* 68k registers are stored in a M68kRegisters struct on the stack
342	* which the native routine may read and modify
343	*/
344
345	// Save r25 (contains current 68k interrupt level)
346	stw r25,XLM_68K_R25(0)
347
348	// Entering EMUL_OP mode within 68k emulator
349	li r0,MODE_EMUL_OP
350	stw r0,XLM_RUN_MODE(0)
351
352	// Create PowerPC stack frame, reserve space for M68kRegisters
353	mr r3,r1
354	subi r1,r1,64 // Fake "caller" frame
355	rlwinm r1,r1,0,0,27 // Align stack
356
357	mfcr r0
358	rlwinm r0,r0,0,11,8
359	stw r0,4(r1)
360	mfxer r0
361	stw r0,16(r1)
362	stw r2,12(r1)
363	stwu r1,-(24+164+158)(r1)
364
365	// Save 68k registers (M68kRegisters)
366	stw r8,24+0*4(r1) // d[0]..d[7]
367	stw r9,24+1*4(r1)
368	stw r10,24+2*4(r1)
369	stw r11,24+3*4(r1)
370	stw r12,24+4*4(r1)
371	stw r13,24+5*4(r1)
372	stw r14,24+6*4(r1)
373	stw r15,24+7*4(r1)
374	stw r16,24+8*4(r1) // a[0]..a[7]
375	stw r17,24+9*4(r1)
376	stw r18,24+10*4(r1)
377	stw r19,24+11*4(r1)
378	stw r20,24+12*4(r1)
379	stw r21,24+13*4(r1)
380	stw r22,24+14*4(r1)
381	stw r3,24+15*4(r1)
382	stfd f0,24+164+08(r1)
383	stfd f1,24+164+18(r1)
384	stfd f2,24+164+28(r1)
385	stfd f3,24+164+38(r1)
386	stfd f4,24+164+48(r1)
387	stfd f5,24+164+58(r1)
388	stfd f6,24+164+68(r1)
389	stfd f7,24+164+78(r1)
390	mffs f0
391	stfd f8,24+164+88(r1)
392	stfd f9,24+164+98(r1)
393	stfd f10,24+164+108(r1)
394	stfd f11,24+164+118(r1)
395	stfd f12,24+164+128(r1)
396	stfd f13,24+164+138(r1)
397	stfd f0,24+164+148(r1)
398
399	// Execute native routine
400	lwz r13,XLM_TOC(0)
401	addi r3,r1,24
402	mr r4,r24
403	bl C_SYMBOL_NAME(EmulOp)
404
405	// Restore 68k registers (M68kRegisters)
406	lwz r8,24+0*4(r1) // d[0]..d[7]
407	lwz r9,24+1*4(r1)
408	lwz r10,24+2*4(r1)
409	lwz r11,24+3*4(r1)
410	lwz r12,24+4*4(r1)
411	lwz r13,24+5*4(r1)
412	lwz r14,24+6*4(r1)
413	lwz r15,24+7*4(r1)
414	lwz r16,24+8*4(r1) // a[0]..a[7]
415	lwz r17,24+9*4(r1)
416	lwz r18,24+10*4(r1)
417	lwz r19,24+11*4(r1)
418	lwz r20,24+12*4(r1)
419	lwz r21,24+13*4(r1)
420	lwz r22,24+14*4(r1)
421	lwz r3,24+15*4(r1)
422	lfd f13,24+164+148(r1)
423	lfd f0,24+164+08(r1)
424	lfd f1,24+164+18(r1)
425	lfd f2,24+164+28(r1)
426	lfd f3,24+164+38(r1)
427	lfd f4,24+164+48(r1)
428	lfd f5,24+164+58(r1)
429	lfd f6,24+164+68(r1)
430	lfd f7,24+164+78(r1)
431	mtfsf 0xff,f13
432	lfd f8,24+164+88(r1)
433	lfd f9,24+164+98(r1)
434	lfd f10,24+164+108(r1)
435	lfd f11,24+164+118(r1)
436	lfd f12,24+164+128(r1)
437	lfd f13,24+164+138(r1)
438
439	// Delete PowerPC stack frame
440	lwz r2,24+164+158+12(r1)
441	lwz r0,24+164+158+16(r1)
442	mtxer r0
443	lwz r0,24+164+158+4(r1)
444	mtcrf 0xff,r0
445	mr r1,r3
446
447	// Reentering 68k emulator
448	li r0,MODE_68K
449	stw r0,XLM_RUN_MODE(0)
450
451	// Set r0 to 0 for 68k emulator
452	li r0,0
453
454	// Execute next 68k opcode
455	rlwimi r29,r27,3,13,28
456	lhau r27,2(r24)
457	mtlr r29
458	blr
459
460
461	// Save address of EMUL_BREAK/EMUL_OP routine for 68k emulator patch
462	3: mflr r0
463	stw r0,XLM_EMUL_OP_PROC(0)
464
465	// Save stack pointer for EMUL_RETURN
466	stw r1,XLM_EMUL_RETURN_STACK(0)
467
468	// Preset registers for ROM boot routine
469	lis r3,0x40b0 // Pointer to ROM boot structure
470	ori r3,r3,0xd000
471
472	// 68k emulator is now active
473	li r0,MODE_68K
474	stw r0,XLM_RUN_MODE(0)
475
476	// Jump to ROM
477	bctr
478
479
480	/*
481	* void execute_68k(uint32 pc {r3}, M68kRegisters *r {r4}) - Execute 68k routine
482	*/
483
484	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(execute_68k)
485	C_SYMBOL_NAME(execute_68k):
486	// Create MacOS stack frame
487	mflr r0
488	stw r0,4(r1)
489	stwu r1,-(56+194+188)(r1)
490	mfcr r0
491	stw r4,48(r1) // save pointer to M68kRegisters for EXEC_RETURN
492	stw r0,52(r1) // save CR
493
494	// Save PowerPC registers
495	stmw r13,56(r1)
496	#if SAVE_FP_EXEC_68K
497	stfd f14,56+194+08(r1)
498	stfd f15,56+194+18(r1)
499	stfd f16,56+194+28(r1)
500	stfd f17,56+194+38(r1)
501	stfd f18,56+194+48(r1)
502	stfd f19,56+194+58(r1)
503	stfd f20,56+194+68(r1)
504	stfd f21,56+194+78(r1)
505	stfd f22,56+194+88(r1)
506	stfd f23,56+194+98(r1)
507	stfd f24,56+194+108(r1)
508	stfd f25,56+194+118(r1)
509	stfd f26,56+194+128(r1)
510	stfd f27,56+194+138(r1)
511	stfd f28,56+194+148(r1)
512	stfd f29,56+194+158(r1)
513	stfd f30,56+194+168(r1)
514	stfd f31,56+194+178(r1)
515	#endif
516
517	// Set up registers for 68k emulator
518	lwz r31,XLM_KERNEL_DATA(0) // Pointer to Kernel Data
519	addi r31,r31,0x1000
520	li r0,0
521	mtcrf 0xff,r0
522	creqv 11,11,11 // Supervisor mode
523	lwz r8,0*4(r4) // d[0]..d[7]
524	lwz r9,1*4(r4)
525	lwz r10,2*4(r4)
526	lwz r11,3*4(r4)
527	lwz r12,4*4(r4)
528	lwz r13,5*4(r4)
529	lwz r14,6*4(r4)
530	lwz r15,7*4(r4)
531	lwz r16,8*4(r4) // a[0]..a[6]
532	lwz r17,9*4(r4)
533	lwz r18,10*4(r4)
534	lwz r19,11*4(r4)
535	lwz r20,12*4(r4)
536	lwz r21,13*4(r4)
537	lwz r22,14*4(r4)
538	li r23,0
539	mr r24,r3
540	lwz r25,XLM_68K_R25(0) // MSB of SR
541	li r26,0
542	li r28,0 // VBR
543	lwz r29,0x74(r31) // Pointer to opcode table
544	lwz r30,0x78(r31) // Address of emulator
545
546	// Push return address (points to EXEC_RETURN opcode) on stack
547	li r0,XLM_EXEC_RETURN_OPCODE
548	stwu r0,-4(r1)
549
550	// Reentering 68k emulator
551	li r0,MODE_68K
552	stw r0,XLM_RUN_MODE(0)
553
554	// Set r0 to 0 for 68k emulator
555	li r0,0
556
557	// Execute 68k opcode
558	lha r27,0(r24)
559	rlwimi r29,r27,3,13,28
560	lhau r27,2(r24)
561	mtlr r29
562	blr
563
564
565	/*
566	* uint32 call_macos1(uint32 tvect{r3}, uint32 arg1{r4}) ... - Call MacOS routines
567	*/
568
569	ASM_MACRO_START prolog
570	mflr r0
571	stw r0,4(r1)
572	stwu r1,-64(r1)
573	ASM_MACRO_END
574
575	ASM_MACRO_START epilog
576	lwz r13,XLM_TOC(0)
577	lwz r0,64+4(r1)
578	mtlr r0
579	addi r1,r1,64
580	blr
581	ASM_MACRO_END
582
583	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos)
584	C_SYMBOL_NAME(call_macos):
585	prolog
586	lwz r0,0(r3) // Get routine address
587	lwz r2,4(r3) // Load TOC pointer
588	mtctr r0
589	bctrl
590	epilog
591
592	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos1)
593	C_SYMBOL_NAME(call_macos1):
594	prolog
595	lwz r0,0(r3) // Get routine address
596	lwz r2,4(r3) // Load TOC pointer
597	mtctr r0
598	mr r3,r4
599	bctrl
600	epilog
601
602	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos2)
603	C_SYMBOL_NAME(call_macos2):
604	prolog
605	lwz r0,0(r3) // Get routine address
606	lwz r2,4(r3) // Load TOC pointer
607	mtctr r0
608	mr r3,r4
609	mr r4,r5
610	bctrl
611	epilog
612
613	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos3)
614	C_SYMBOL_NAME(call_macos3):
615	prolog
616	lwz r0,0(r3) // Get routine address
617	lwz r2,4(r3) // Load TOC pointer
618	mtctr r0
619	mr r3,r4
620	mr r4,r5
621	mr r5,r6
622	bctrl
623	epilog
624
625	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos4)
626	C_SYMBOL_NAME(call_macos4):
627	prolog
628	lwz r0,0(r3) // Get routine address
629	lwz r2,4(r3) // Load TOC pointer
630	mtctr r0
631	mr r3,r4
632	mr r4,r5
633	mr r5,r6
634	mr r6,r7
635	bctrl
636	epilog
637
638	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos5)
639	C_SYMBOL_NAME(call_macos5):
640	prolog
641	lwz r0,0(r3) // Get routine address
642	lwz r2,4(r3) // Load TOC pointer
643	mtctr r0
644	mr r3,r4
645	mr r4,r5
646	mr r5,r6
647	mr r6,r7
648	mr r7,r8
649	bctrl
650	epilog
651
652	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos6)
653	C_SYMBOL_NAME(call_macos6):
654	prolog
655	lwz r0,0(r3) // Get routine address
656	lwz r2,4(r3) // Load TOC pointer
657	mtctr r0
658	mr r3,r4
659	mr r4,r5
660	mr r5,r6
661	mr r6,r7
662	mr r7,r8
663	mr r8,r9
664	bctrl
665	epilog
666
667	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(call_macos7)
668	C_SYMBOL_NAME(call_macos7):
669	prolog
670	lwz r0,0(r3) // Get routine address
671	lwz r2,4(r3) // Load TOC pointer
672	mtctr r0
673	mr r3,r4
674	mr r4,r5
675	mr r5,r6
676	mr r6,r7
677	mr r7,r8
678	mr r8,r9
679	mr r9,r10
680	bctrl
681	epilog
682
683
684	/*
685	* Native resource manager patches
686	*/
687
688	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_resource)
689	C_SYMBOL_NAME(get_resource):
690	// Create stack frame
691	mflr r0
692	stw r0,8(r1)
693	stwu r1,-(56+12)(r1)
694
695	// Save type/ID
696	stw r3,56(r1)
697	stw r4,56+4(r1)
698
699	// Call old routine
700	lwz r0,XLM_GET_RESOURCE(0)
701	lwz r2,XLM_RES_LIB_TOC(0)
702	mtctr r0
703	bctrl
704	stw r3,56+8(r1) // Save handle
705
706	// Call CheckLoad
707	lwz r3,56(r1)
708	lha r4,56+6(r1)
709	lwz r5,56+8(r1)
710	bl C_SYMBOL_NAME(check_load_invoc)
711	lwz r3,56+8(r1) // Restore handle
712
713	// Return to caller
714	lwz r0,56+12+8(r1)
715	mtlr r0
716	addi r1,r1,56+12
717	blr
718
719	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_1_resource)
720	C_SYMBOL_NAME(get_1_resource):
721	// Create stack frame
722	mflr r0
723	stw r0,8(r1)
724	stwu r1,-(56+12)(r1)
725
726	// Save type/ID
727	stw r3,56(r1)
728	stw r4,56+4(r1)
729
730	// Call old routine
731	lwz r0,XLM_GET_1_RESOURCE(0)
732	lwz r2,XLM_RES_LIB_TOC(0)
733	mtctr r0
734	bctrl
735	stw r3,56+8(r1) // Save handle
736
737	// Call CheckLoad
738	lwz r3,56(r1)
739	lha r4,56+6(r1)
740	lwz r5,56+8(r1)
741	bl C_SYMBOL_NAME(check_load_invoc)
742	lwz r3,56+8(r1) // Restore handle
743
744	// Return to caller
745	lwz r0,56+12+8(r1)
746	mtlr r0
747	addi r1,r1,56+12
748	blr
749
750	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_ind_resource)
751	C_SYMBOL_NAME(get_ind_resource):
752	// Create stack frame
753	mflr r0
754	stw r0,8(r1)
755	stwu r1,-(56+12)(r1)
756
757	// Save type/index
758	stw r3,56(r1)
759	stw r4,56+4(r1)
760
761	// Call old routine
762	lwz r0,XLM_GET_IND_RESOURCE(0)
763	lwz r2,XLM_RES_LIB_TOC(0)
764	mtctr r0
765	bctrl
766	stw r3,56+8(r1) // Save handle
767
768	// Call CheckLoad
769	lwz r3,56(r1)
770	lha r4,56+6(r1)
771	lwz r5,56+8(r1)
772	bl C_SYMBOL_NAME(check_load_invoc)
773	lwz r3,56+8(r1) // Restore handle
774
775	// Return to caller
776	lwz r0,56+12+8(r1)
777	mtlr r0
778	addi r1,r1,56+12
779	blr
780
781	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(get_1_ind_resource)
782	C_SYMBOL_NAME(get_1_ind_resource):
783	// Create stack frame
784	mflr r0
785	stw r0,8(r1)
786	stwu r1,-(56+12)(r1)
787
788	// Save type/index
789	stw r3,56(r1)
790	stw r4,56+4(r1)
791
792	// Call old routine
793	lwz r0,XLM_GET_1_IND_RESOURCE(0)
794	lwz r2,XLM_RES_LIB_TOC(0)
795	mtctr r0
796	bctrl
797	stw r3,56+8(r1) // Save handle
798
799	// Call CheckLoad
800	lwz r3,56(r1)
801	lha r4,56+6(r1)
802	lwz r5,56+8(r1)
803	bl C_SYMBOL_NAME(check_load_invoc)
804	lwz r3,56+8(r1) // Restore handle
805
806	// Return to caller
807	lwz r0,56+12+8(r1)
808	mtlr r0
809	addi r1,r1,56+12
810	blr
811
812	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(r_get_resource)
813	C_SYMBOL_NAME(r_get_resource):
814	// Create stack frame
815	mflr r0
816	stw r0,8(r1)
817	stwu r1,-(56+12)(r1)
818
819	// Save type/ID
820	stw r3,56(r1)
821	stw r4,56+4(r1)
822
823	// Call old routine
824	lwz r0,XLM_R_GET_RESOURCE(0)
825	lwz r2,XLM_RES_LIB_TOC(0)
826	mtctr r0
827	bctrl
828	stw r3,56+8(r1) // Save handle
829
830	// Call CheckLoad
831	lwz r3,56(r1)
832	lha r4,56+6(r1)
833	lwz r5,56+8(r1)
834	bl C_SYMBOL_NAME(check_load_invoc)
835	lwz r3,56+8(r1) // Restore handle
836
837	// Return to caller
838	lwz r0,56+12+8(r1)
839	mtlr r0
840	addi r1,r1,56+12
841	blr
842
843
844	/*
845	* void ppc_interrupt(uint32 entry{r3}, uint32 kernel_data{r4}) - Execute PPC interrupt
846	*/
847
848	ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME(ppc_interrupt)
849	C_SYMBOL_NAME(ppc_interrupt):
850	mflr r0
851	stw r0,4(r1)
852	stwu r1,-64(r1)
853
854	// Get address of return routine
855	bl 1f
856
857	// Return routine
858	lwz r0,64+4(r1)
859	mtlr r0
860	addi r1,r1,64
861	blr
862
863	// Prepare registers for nanokernel interrupt routine
864	1: mtctr r1
865	mr r1,r4
866	stw r6,0x018(r1)
867	mfctr r6
868	stw r6,0x004(r1)
869	lwz r6,0x65c(r1)
870	stw r7,0x13c(r6)
871	stw r8,0x144(r6)
872	stw r9,0x14c(r6)
873	stw r10,0x154(r6)
874	stw r11,0x15c(r6)
875	stw r12,0x164(r6)
876	stw r13,0x16c(r6)
877
878	mflr r10
879	mfcr r13
880	lwz r7,0x660(r1)
881	mflr r12
882	rlwimi. r7,r7,8,0,0
883	li r11,0
884	ori r11,r11,0xf072 // MSR (SRR1)
885	mtcrf 0x70,r11
886	li r8,0
887
888	// Enter nanokernel
889	mtlr r3
890	blr